PETROLEUM PIPELINES IN THE USSR AS OF 1 JANUARY 1957

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CIA-RDP79R01141A001000140002-2
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RIPPUB
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S
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94
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December 27, 2016
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September 12, 2013
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2
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Publication Date: 
June 2, 1958
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REPORT
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'Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 ! SECRET ECONOMIC INTELLIGENCE REPORT N? 70 50X1 PETROLEUM PIPELINES IN THE USSR AS OF 1 JANUARY 1957 CIA/RR 128 2 June 1958 CENTRAL INTELLIGENCE AGENCY OFFICE OF RESEARCH AND REPORTS SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 WARNING This material contains information affecting the National Defense of the United States within the meaning of the espionage laws, Title 18, USC, Secs. 793 and 794, the trans- mission or revelation of which in any manner to an unauthorized person is prohibited by law. Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T ECONOMIC INTELLIGENCE REPORT PETROLEUM PIPELINES IN THE USSR AS OF 1 JANUARY 1957 CIA/RR 128 (ORR Project 25.872) CENTRAL INTELLIGENCE AGENCY Office of Research and Reports S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T FOREWORD This report discusses the construction, existence, physical char- acteristics, use, and industrial potentials of oil and gas pipelines in the USSR and makes generalized comparisons between the USSR and the US in the resultant developments, facilities, and potentials. For the USSR, there are presented a chronological summary of the construction of oil and gas pipelines and also a chronological record of the traffic in the oil pipelines as related to other freight traffic. Because of the confused status and the inordinate number of sources of information on Soviet pipelines, only the basic conclusions and esti- mates are presented in this report, with no reference to either the supporting evidence or the complicated methodologies necessary to re- solve the evidence. The full methodology, completely documented, is available in CIA files. S -E -C -R -E 7T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T CONTENTS Summary I. Introduction II. Administration of Oil and Gas Pipelines III. Oil Pipelines A. Operating and Under Construction, 1 January 1957 B. Planned C. Traffic Page 1 5 9 11 11 13 17 IV. Gas Pipelines 21 A. Operating and Under Construction, 1 January 1957 . 21 B. Planned 25 C. Capacity, Distribution, and Sources 29 V. Conclusions 35 A. Capabilities and Technological Considerations . ? ? 35 B. Vulnerabilities 37 C. Intentions 38 Appendix A. Statistical Data Appendix B. Methodology Appendixes 39 91 1. General 91 2. Soviet Oil and Gas Pipelines 91 a. Basis of Estimated Physical Data for Oil Pipelines 91 b. Basis of Estimated Physical Data for Gas Pipelines 92 c. Assumed Continuity Status of Oil and Gas Pipelines 92 -v - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Page 3. Petroleum Traffic in the USSR 93 4. Auxiliary Service Installations and Potential Throughput Capacities . . . 93 5. Data on Oil Pipeline Traffic 94 95 6. Recent General Reports on Soviet Oil and Gas Pipelines 7. Weight-to-Volume Conversion Factors for Petroleum Stocks 95 Tables 1. Trunk Oil Pipelines in the USSR, Operating or Under Construction, 1 January 1957 41 2. Chronology for Construction of Trunk Oil Pipelines 43 in the USSR, Before 1957 3. Comparison of Total Lengths of Oil Pipelines in the USSR, 1 January 1957, and in the US, 1 January 1956 . 47 4. Comparison of Diameter Distribution of Trunk Oil Pipelines in the USSR, 1 January 1957, and in the US, 1 January 1956 49 5. Planned Trunk Oil Pipelines in the USSR, 1956-60 and 51 1961-65 6. Estimated Annual Traffic in Nongas Petroleum Stock in the USSR, 1940-55 and 1960 Plan 53 7. Total Freight Traffic in the USSR, by Type of Carrier, Selected Years, 1913-56, and 1960 Plan 55 8. Transportation Balances in Nongas Petroleum Stock in the USSR and the US, by Type of Carrier, 1950, 1955, and 1960 Plan in the USSR and 1949 and 1955 in the US 57 - vi - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T 9. Transportation Balances in Total Freight in the USSR, by Type of Carrier, 1940, 1950, 1955-56, and 1960 Plan 10. Comparison of Railroad Transport of Nongas Petroleum Stock in the USSR and the US, 1950, 1954-55, and 1960 Plan in the USSR and 1950-53 in the US 11. Output of Nongas Petroleum Stock and Traffic in'Oil Pipelines in the USSR and the US, 1940, 1950, 1952, 1955, and 1960 Plan in the USSR and 1940, 1949-50, 1952, and 1955 in the US Page 59 63 65 12. Comparison of Prewar and Postwar Net Delivery of Crude Oil to Refineries in the USSR, 1939 and 1954, and in the US, 1936 and 1954 65 13. Principal Transmission Gas Pipelines in the USSR Completed for Operation Before 1 January 1957 . . 67 14. Installed Lengths of Gas Pipelines Estimated for the USSR, 1 January 1946 and 1 January 1957, and Reported for the US, 1 January 1946 and 1 January 1956 . . ? ? 71 15. Planned Transmission Gas Pipelines in the USSR, 1956-6o 73 16. Chronology for Construction of Transmission Gas Pipelines in the USSR, Before 1957 83 17. Estimated Throughput Capacities of Transmission Gas Pipelines in the USSR, 1 January 1957 85 18. Potential Service Factors of Transmission Gas Pipelines in the USSR and the US, 1950, 1955-56, and 1960 Plan in the USSR and 1954 in the US 87 19. Specific Conversion Factors for Petroleum Products . 89 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: -;IA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Illustrations Figure 1. USSR: Oil Pipelines, 1 January 1957 (Map) Figure 2. Total Length of Operating Trunk Oil and Gas Pipelines in the USSR and the US, 1945-56 and 1960 Plan in the USSR (Chart) Figure 3. Transport of Nongas Petroleum, by Type of Carrier, in the USSR, 1940-55 and 1960 Plan (Chart) Figure 4. Percentage of Transport of Nongas Petroleum, by Type of Carrier, in the USSR, 1940-55 and 1960 Plan (Chart) . Figure 5. Transport of Nongas Petroleum, by Type of Carrier, in the US, 1940-55 (Chart) Figure 6. USSR: Gas Pipelines, 1 January 1957 (Map) S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Following Page Inside Back Cover 48 5)4- 514- 58 Inside Back Cover Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 CIA/RR 128 S-E-C-R-E-T (ORB Project 25.872) PETROLEUM PIPELINES IN TRE USSR AS OF 1 JANUARY 1957* Summary Soviet trunk oil pipelines form an interconnecting network between most of the important crude oil regions and refining centers of the USSR, nearly all of which are located in the European USSR. Important trunk pipelines for oil products also connect with the refineries. Of par- ticular interest is the recent oil pipeline connection between the Ural- Volga area and the "new lands" area of southwestern Siberia. Soviet exploitation of fuel gas resources has taken place largely in the last few years. The transmission gas pipelines, nearly all of which are also located in the European USSR, serve to connect the principal sources of production of fuel gas with the principal centers of consumption. In 1956, centralized authority over the construction of pipelines in the USSR was in the All-Union Ministry of Construction of Petroleum In- dustry Enterprises, functioning through the Main Administration for Con- struction of Petroleum Pipelines. Some specific construction of pipelines and their utilization for transport appear to be under the control of various agencies correlated within the union-republic organization for the petroleum industry. The effect of the official program for general decen- tralization of authority of this type, as announced early in 1957, is yet to be established. As of 1 January 1957 the total length of installed trunk oil and gas pipelines in the USSR was estimated to be about 19,500 kilometers (km), of which 12,482 km were for the transport of petroleum oils and 7,037 km were for the transport of fuel gas, including about 740 km for the transport of manufactured fuel gas.** Of the total length of trunk oil pipelines, 73.3 percent was for crude oil and 26.7 percent was for oil * The estimates and conclusions contained in this report represent the best judgment of ORB as of 1 January 1958. It should be noted, however, that during the last 6 months of 1957 the original Sixth Five Year Plan (1956-60) was in the process, of revision (see II, p. 9, below; III, B, pp. 13-16, below; IV, B, p. 26, below; and Appendix B, 1, a, p. 92, belay). ** Throughout this report, unless otherwise indicated, the total length of pipelines given for any year refers to the total length at the end of the year. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T products. Of the total length of transmission gas pipelines, 89.5 per- cent was for natural gas and 10.5 percent was for manufactured gas.* On 1 January 1956 the corresponding total lengths in the US consisted of 185,098 km of trunk oil pipelines and 233,662 km of transmission gas pipelines. Of this total length of trunk oil pipelines in the US, 68.3 percent was for crude oil and 31.7 percent was for oil products. Of the total length of transmission gas pipelines in the US, 97.6 percent was for natural gas and 2.4 percent was for manufactured and mixed gas. The amount of oil pipeline transport in the USSR in 1955 is esti- mated to have been 13.7 billion metric ton-kilometers,** constituting 9.7 percent of the total transport of all nongas petroleum stock by all types of carriers. In the US in 1955 the amount of oil pipeline transport is estimated to have been 256 billion ton-kilometers, con- stituting 44.6 percent of the total transport of all nongas petroleum stock by all types of carriers. Although data are not available for ton- kilometers of gas pipeline transport in either the USSR or the US, the net production of natural gas for pipeline transfer is estimated or reported to have been 9 billion cubic meters in the USSR in 1955 and 203.4 billion cubic meters in the US in 1954, measured at the industry, standard conditions of temperature and pressure. There was a correspond- ing estimated net production of 1.4 billion cubic meters of manufactured fuel gas for transmission gas pipeline transport in the USSR in 1955. Apparently the USSR proposed during the original Sixth Five Year Plan (1956-60) to complete for new service about 13,000 km of trunk oil pipe- lines and about 12,250 km of identified transmission gas pipelines.*** Other new trunk oil and gas pipeline projects are identified for com- pletion after 1960. The proposed trunk oil pipelines appear to be about equally divided in length between crude oil pipelines and oil product pipelines. Almost all of the proposed transmission gas pipelines are for natural gas. Completions for new service in 1956 included 1,075 km of the proposed trunk oil pipelines and 1,875 km of the proposed transmission * For definitions of terms, see I, p. 5, below. ** Tonnages are given in metric tons throughout this report. XXX In the directives of the plan, 14,500 km were proposed for the trunk oil pipelines, and 9,000 km were proposed for the transmission gas pipelines, without identification of all pipelines involved in such totals. The Soviet press has published revised plans for the pipeline constructions. - 2 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T gas pipelines. If the proposed lengths are constructed, the installed trunk oil pipelines will be about 2:1 times as long in 1960 as in 1955, and the transmission gas pipelines about 3.3 times as long. The majority of the proposed trunk oil pipelines originate in the Ural-Volga regions and extend westward to industrialized areas in the central European USSR and eastward into southwestern Siberia. The USSR has also announced a long-range plan for construction of a trans-Siberian trunk oil pipeline system, with the trunk oil pipelines to be extended to the Pacific Ocean under the original Seventh Five Year Plan (1961-65). The proposed transmission gas pipelines, some of which are not to be completed until after 1960, will serve primarily to exploit the newly discovered natural gas reserves at Shebelinka, Stavropol', Stepnoye, and Berezovo, and also the recently expanded gas reserves at Dashava. The proposed transmission gas pipelines will further provide for major exploitation of the natural gas reserves located in general regions of oilfields. One goal of the original Sixth Five Year Plan was a large increase in the volume and efficiency of the use of oil pipelines. It is pro- posed that in 1960 the ton-kilometers of oil pipeline traffic will increase sixfold above the 1955 value and will in 1960 attain a value of 83 billion ton-kilometers, representing 25 percent of the total transport of nongas petroleum stock by all carriers. Evidence shows that the USSR now has the capability for the mass construction of oil and gas pipelines. Mechanized equipment of advanced design is available, and other technological improvements are apparent. In applied construction practice, and especially in the utilization of pipelines, Soviet efficiency appears to be considerably below Western standards, but improvement in efficiency appears to be in progress. The projects of the original Sixth Five Year Plan for the construction of pipelines probably are within Soviet capabilities, but there is evi- dence that maximum use of capabilities probably will be required to meet the goals involved. The installed oil pipelines are presently inadequate for Soviet needs, and this inadequacy places an extra burden on the already over- loaded railroad facilities. Because of the deadhead hauls necessary for the return of empty railroad tank cars, the burden placed on rail- roads has a double effect. The USSR is especially vulnerable in regard to the major trunk oil pipelines which now exist, and loss of the use of any major oil pipeline might cause serious disruptions in industrial - 3 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T production. To the extent that the Soviet economy becomes dependent on transmission gas pipelines as a source of fuel, a similar vulnerability extends to the gas pipelines. - 4 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T I. Introduction. This report discusses pipelines during past periods in the USSR and those in existence during the closing period of Imperial Russia. The data may be assumed to apply to the national areas enclosed within the nominally prevailing boundaries during each period in question. Definite terminology is applied as follows in this report with respect to petroleum production and traffic: The term petroleum is used in this report in its most general sense, to mean either natural petroleum or synthetic petroleum, whether in the gas, liquid, or solid phase. As applied in this report, the term stock is used in a generalized sense to mean any petroleum material, and the term oil is used in a specialized sense to mean any liquid petroleum. The term natural petroleum means a petroleum either derived as such from a natural deposit or derived subsequently from such a naturally derived stock. The term crude petroleum means any petroleum stock that normally serves as a source of new petroleum stock by subsequent pro- cessing. The term crude oil means a liquid type of crude petroleum and in this report refers only to natural crude oil, a stock constituted by natural liquid crude petroleum in a physical state essentially as derived from a natural deposit. Oil stocks discussed in this report are in general predominantly of the natural type. The term petroleum product means any petroleum stock normally already suitable for end consumption, specifically a nonwaste stock not normally used as a source of new petroleum stocks by processing. The term oil products is used to refer to liquid petroleum products. The term refinery is used specifically to mean a petroleum refinery handling a charge of natural liquid crude petroleum, usually natural crude oil. The term natural gas is applied in this report in its conventional meaning, to denote natural gaseous crude petroleum in a physical state essentially as derived from a natural deposit. The term as is applied more generally, to denote either a gas of the petroleum type or a manu- factured fuel gas not of the petroleum type. As considered in this report, gases of the petroleum type include not only natural gas but also the manufactured (processed) gases which consist of refinery gas, generally a form of natural petroleum in a converted state, and of shale gas, specifically a form of synthetic petroleum derived from oil shale. Furthermore, as considered in this report, manufactured fuel gases not of the petroleum type generally consist of varieties such as producer gas and coke oven gas, specifically derived by gasification of coal material. -5- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : ::',IA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : .7,1A-RDP79R01141A001000140002-2 ? S-E-C-R-E-T Definite terminology is further applied as follows in this report with respect to type and use of pipelines: The term petroleum pipeline as used in this report refers either to an oil pipeline which is in service for oil of the petroleum type or to a gas pipeline which is in service for gas of the petroleum type. The term oil pipeline is used specifically, referring only to a crude oil pipeline for crude oil or to a product oil pipeline for oil prod- ucts. The term as pipeline Is applied more generally, to denote a pipeline handling the natural gas or any manufactured gas that may be under consideration. The term trunk pipeline is used in this report in a generalized, relative sense with reference to the function of the pipeline, meaning a centralized or principal pipeline in a pipeline system connecting two terminal points or areas. The principal coverage of this report relates to trunk pipelines as thus defined. Especially with reference to instances where the pipeline installations are extensive, the pipe- line system may have one or more branch pipeline systems serviced by trunk pipeline branches, and the separate pipeline system typically consists of one or more trunk pipelines serviced by branch pipelines. As distinguished from the trunk pipelines, the branch pipelines are relatively shorter in route length; tend to be relatively smaller in line pipe diameter; tend to be featured by intermittent operation com- pared with the more or less continuous operation in the trunk pipelines; and consist of collection pipelines, or gathering pipelines, which feed the fluids to the trunk pipelines, together with distribution pipelines which deliver the transported fluids away from the trunk pipelines. It is emphasized that the term trunk pipeline is relative in meaning. Sometimes, and especially so where the routes serve as connections in over-all transportation systems or are relatively short in other in- stances, trunk pipelines may constitute pipeline systems having no branch pipelines. Nevertheless, a trunk pipeline usually has branch pipelines and is typically of major extent in route length. Further- more, a trunk pipeline typically serves for a relatively high quantity rate of transfer of fluids, necessitating a relatively large line pipe diameter. By way of exception, especially where the pipeline system has no branch pipelines, a trunk pipeline may be relatively short in route length. A trunk pipeline also may exist in useful service for a relatively low rate of fluid transfer, featuring a relatively small line pipe diameter. Trunk pipelines of small diameter are usually of short route length and usually have few, if any, branch pipelines. - 6 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Trunk pipelines of short route length typically have few, if any, branch pipelines, whereas the branch pipelines and the relatively large line pipe diameters are typically featured if the trunk pipe- lines are of major route length. Trunk petroleum pipelines, trunk oil pipelines, and trunk gas pipelines are derived terms, even though the trunk gas pipelines are usually, but not necessarily, designated as transmission gas pipelines. In this report the work done in transportation is quantified in terms of metric ton-kilometers, and such quantities are specifically designated by the synonymous terms traffic and transport and sometimes are still more specifically designated as quantity or amount or volume) of the traffic (or the transport). The mass of the material transferred in transportation is quantified in terms of metric tons, and such quan- tities are specifically designated by the term transfer and are some- times still more specifically designated as quantity (or amount) of the transfer. The distance through which the material is transported is given in kilometers and is specifically designated by the variation terms distance of transfer, or transfer distance, and not by the term transfer alone. The term transportation is not used in the sense of traffic, transport, or transfer as defined above. According to con- text, however, the terms traffic, transport, or transfer may denote the general process or operation of transportation. The term trans- portation balance refers to a correlation of the traffic, transfer, and distance of transfer values as defined above, by type of carrier, period of time, and usually category of material transported. - 7 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T II. Administration of Oil and Gas Pipelines. In 1940 stated that through 1936 the control of the construction or petroleum pipelines in the USSR had been central- ized in Nefteprovodstroy (Gosudarstvennyy Trest po Proyektiro- vaniyu i Sooruzheniyu Magistral'nykh Truboprovodov Neftyanoy Promysh- lennosti -- State Trust for the Planning and Construction of Main Pipelines of the Petroleum Industry). Between 1936 and 1940, the control of the construction of pipelines was decentralized and jointly vested in several organizations. Following World War II the installation of oil and gas pipelines in the USSR appears to have become a major enterprise, developed to meet the urgent requirements of the Soviet petroleum industry. By 1955, authority was centralized in Minneftestroy (Ministerstvo Stroitel'stva Predpriyatiy Neftyannoy Promyshlennosti -- the L41_. Unio7 Ministry of Construction of Petroleum Industry Enterprises). This ministry had as a subordinate Glavnefteprovodstroy (Glavnoye Upravleniye Do Stroitel'stvu Nefteprovodov -- the Main Administration for Construction of Petroleum Pipelines). Specific control of physi- cal construction of the pipelines and of their subsequent use appears to have been delegated concurrently to agencies of various names in different areas, apparently involving correlation among certain main administrations, trusts, and associations in the union-republic organi- zation for the petroleum industry. Early in 1957 the USSR officially announced a program for decen- tralization of ministerial authority of the types just enumerated. The effect of this program in relation to oil and gas pipelines is not yet completely established. - 9 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 5uxi Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T III. Oil Pipelines. A. Operating and Under Construction, 1 January 1957. At the close of 1956, Soviet trunk oil pipelines, with probable diameters ranging from 8 to 28 inches and possibly more, formed a sig- nificant network of interconnecting lines between most of the important crude oil regions and refining centers of the USSR. The network con- nected the Caspian Sea with the Black Sea across the Caucasus, the Caucasus area with the Donets Basin area of the Ukraine, the Caucasus area with the Ural-Volga area, and the Ural-Volga area with the "new lands" area of southwestern Siberia. In addition, several important trunk oil pipelines existed, connecting the refineries with main dis- tribution centers. The operating length of all trunk oil pipelines in the USSR was increased from about 5,530 km in 1945 to 12,482 km in 1956, About 2.25 times. The total length was increased about 1.8 times during the course of the Fifth Five Year Plan (1951-55). Operating lengths of major trunk oil pipelines, each of which is at least 100 km long, are estimated to have been about 5,200 km in 1950, about 10,000 km in 1955, and about 10,900 km in 1956. The existing trunk oil pipelines consist of crude oil pipelines and product oil pipelines. Three of the crude oil pipelines are indicated for transport of oil products also. Available data provide no firm basis for estimating the length of gathering crude oil pipelines in the USSR, but it is probable that the total of 12,482 km of trunk oil pipelines constituted at least 60 percent of the total length of Soviet oil pipelines in 1956.* This probability is established by analogy with the US. By 1954 the availability of trunk crude oil pipelines in the USSR had increased greatly compared with that before World War II. In spite of the rapid progress during the postwar period, the need for more oil pipelines is emphasized As late as 1956, the inadequacy of oil pipelines * In July 1954 a TASS radio broadcast from Moscow set forth a claim that there were "several tens of thousands of kilometers" of oil pipelines in the USSR. Although this claim may not be untruthful, it appears to be an overstatement, for there is no evidence that "several" referred to more than three, if so many. - 11- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T in the USSR and commented on the future use of oil pipelines to re- lieve the excessive freight loading on railroads. In 1955 and 1956, noted the recent practice of installing oil and gas pipelines of relatively large diameter, and the current use of 28-inch line pipe for high-pressure transmission gas pipelines. showing oil pipelines indicates that in the USSR individual trunk oil pipelines are much longer, on the average, than they are in the US. Moreover, the average diameters in the longer Soviet trunk oil pipelines are greater than those in the US trunk oil pipelines. Probable trunk oil pipelines operating or under construction in the USSR as of 1 January 1957 are shown in Table 1.* The chron- ology'of trunk oil pipeline construction in the USSR in 1945-57 is shown in Table 2.** A comparison of total lengths of oil pipelines installed in the USSR and the US is shown in Table 3,*** and a com- parison of diameter distribution of trunk oil pipelines in the USSR and the US is Shown in Table 4.**** Table 1 shows pipelines and also shows a number of pipelines the existence of which is possible but doubtful. The oil pipelines and oil pipeline lengths considered in this report are only those confirmed The traces of all of the oil pipelines, including those the existence of which is possible but doubtful, are shown on the map, Figure 1.t On the map, Figure 1, different types of trace lines serve to distinguish the traces of pipelines existing on 1 January 1957, the traces of pipelines under construction, the traces of other pipelines proposed in the original Sixth Five Year Plan, and the Appendix A, p. 41, below. Appendix A, p. 43, below. Appendix A, p. 47, below. Appendix A, p. 49, below. Inside back cover. - 12- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 , 50X1 50X1 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T traces of pipelines proposed for the original Seventh Five Year Plan. Different colors on the map distinguish the pipelines con- firmed the pipelines confirmed the pipelines the existence of which but doubtful. Some of the pipeline routes, however, are on the map and may only approximate the route lengths as Tables 1 and 3. is possible schematic given in Shaded areas on the map indicate generalized regions of natural crude oil production, and two sizes of symbols are used to denote relative magnitude of production in the more important oil- fields correlated with the pipelines. Symbols on the map represent the major oil refineries and oil refinery constructions which are correlated with the oil pipelines. Two sizes of symbols denote relative magnitude of charge capacity in the refinery complexes, and two types of symbols denote major refinery construction projects of the original Sixth Five Year Plan, making a distinction between major expansions of existing facilities and major construction of new facilities.* Figure 2** provides a graphic comparison of the chronology of construction, referring to lengths of trunk oil pipelines com- pleted for operation in the USSR and the US. B. Planned. In published Soviet directives and in later Soviet press releases on the original Sixth Five Year Plan, the total length of projected trunk oil pipelines is variously cited, ranging from "at least" 10,500 km to "more than" 15,000 km. Table 5*** summarizes available in early 1957 dealing with the oil pipe- lines planned and constructed after 1955. It shows data on 32 projects for trunk oil pipelines having total length of about 14,850 km, identifiable with the original Sixth Five Year Plan. The trunk oil pipelines of the original Sixth Five Year Plan will serve as additional connections between the Ural and EMba areas and between those areas and the Siberian "new lands," and they will extend far eastward to connect with the central southern area of * The shaded areas and symbols are intended to be schematic, and exact geographic locations or boundaries are not to be inferred from them. ** Appendix A, following p. 48, below. *** Appendix A, p. 51, below. - 13 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Siberia at Lake Baykal. In the European USSR the new trunk oil pipe- lines will connect the Ural-Volga area with the Kama area and with Moscow and also with specified large industrialized centers north and south of Moscow. Official Soviet long-range proposals for the original Seventh Five Year Plan covered planned construction and completion of trunk oil pipelines extending eastward from Lake Baykal in Siberia. As pro- posed, the eastward extensions would complete a trans-Siberian trunk oil pipeline system (see Planned Oil Pipelines in Table 5*). The system would follow the general route of the Trans- Siberian Railroad and would reach across the 7,000 km in the southern expanse of Siberia, connecting the Ural Mountains with the Siberian coastal areas of the Pacific Ocean. The pipelines listed in Table 5 are shown on the map, Figure 1, and the map shows general distinction in these traces as to the con- struction status in 1956. In addition to the planned oil pipelines shown in Table 5, other trunk oil pipelines of major length appear to be officially planned for installation at some future date, but data describe the additional plans only in general terms. there will be two systems of trunk oil pipelines to trans- port crude oil from the Tatar and Bashkir oilfields in order to supply new refineries to be constructed in Gor'kiy, Yaroslavl', Ryazan', and Moscow. Planned Oil Pipelines in Table 2 with a total length of 1,277 km, constitute one of the planned systems, (miffing service to Moscow. The second planned system might very well follow the routes of Planned Oil Pipelines and include a fourth segment along the route of Planned Oil Pipeline which appears to have been planned to transport oil products, rather than crude oil, from Ryazan' to Moscow. The inclusion of Planned Oil Pipeline would give a total length of about 1,550 km in the second system of trunk oil pipelines. - 14- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 QUA] 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T crude oil from the Tatar and Bashkir oilfields will be supplied by trunk oil pipeline for refining, not only in the proposed new refineries in Gortkiy, Yaroslavl', Ryazan', and Moscow but also in 3 other new refineries planned for con- struction -- 1 in the Ukraine and 2 in Belorussia. Odessa is specifi- cally cited as one terminal of such a trunk oil pipeline for the supply of crude oil. The sites of the latter 3 new refineries are not spec- ified in available Soviet data, but the refinery in the Ukraine pos- sibly will be at either Kremenchug or Odessa, whereas Minsk, Vitebsk, or Polotsk would be logical sites for the refineries in Belorussia. As shown in Table 5, Bryansk, Polotsk, Kremenchug, and Odessa are terminals on Planned Oil Pipelines and these pipelines probably are planned for transport of oil products. These products are to be transported to Bryansk from Kuybyshev via Planned Oil Pipeline a trunk oil pipeline specified as one proposed for oil products. If 2 trunk oil pipeline carriers are to transport crude oil from the Tatar and Bashkir oilfields with a terminal at Ryazan', it may very well be that 3 trunk oil pipelines are planned to carry part of the crude oil on from Ryazan' -- 1 line from Ryazan' to Moscow; 1 line, about 1,200 km in length, southward from Ryazan' and across the Ukraine to Odessa; and 1 line, about 800 km in length, westward from Ryazan' to the 2 new refineries in Belorussia. Thus the addi- tional trunk pipelines for crude oil would have a total length of 3,550 km. The USSR reportedly intends to construct trunk oil pipelines connecting the Baltic Sea areas with the Ural-Volga oilfields to trans- port oil stocks. The planned trunk oil pipelines into Belorussia would constitute a major segment of such a connection. stated in early 1957 that 25,284 km of trunk oil pipelines and transmission gas pipelines were scheduled for construction in the USSR in 1956-60 and that in that total there would be about 12,000 km of transmission gas pipelines. In this report, 12,266 km is estimated to be the length of transmis- sion gas pipelines to be completed for new operation in the USSR in 1956-60.* The corresponding length for trunk oil pipelines to be com- pleted for new operation then would be 13,018 km, representing an * See IV, B, p. 25, below. -15 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: .01A-RDP79R01141A001000140002-2 50X1 50X1 550X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : -2,1A-RDP79R01141A001000140002-2 S -E -C -R -E -T average rate of about 2,600 km per year.* It is improbable, therefore, that the additional length of 3,550 km of trunk oil pipelines cited above is officially planned for construction in 1956-60, and it is pos- sible that some of the total length as shown for 1956-60 in Table 4 is not officially scheduled for completion in the stated period, partic- ularly some of the lengths of Planned Oil Pipelines It is estimated that 11,407 km of trunk oil pipelines were operating in the USSR in 1955. If 13,018 km of new trunk oil pipe- lines are completed for operation during the period of the original Sixth Five Year Plan, the total length scheduled for 1960 will be 24,425 km, an increase to about 2.14 times the length in 1955 during the period of the plan. It is estimated that 1,075 km of trunk oil pipelines were com- pleted for operation in the USSR in 1956. at least 600 km in seven trunk oil pipelines, were completed for new service in 1956 and that the total length of trunk oil pipelines completed for new service during 1956 exceeded 1,000 km. In addition, a considerable length of trunk oil pipeline appears to have been installed in place in 1' 6 but not ? 'nto service, in particular Planned Oil Pipelines These 1956 results, however, do not compare too well with e required average rate of 2,600 km per year mentioned above, and maximum use of increasing capabilities apparently will be required for the USSR to fulfill the goal of the original Sixth Five Year Plan for the construction of trunk oil pipelines. in 1956 the USSR. may have utilized to the limit all of the current capabilities of the country for supplying line pipe for pipelines. As shown in Table 5, 22 trunk pipelines for crude oil with a total length of 7,541 km and 10 trunk pipelines for oil products with a total length of 7,309 km are to be completed under the original Sixth Five Year Plan. Although available Soviet data are very meager in regard to the construction of gathering crude oil pipelines in the USSR, it is estimated that for the original Sixth Five Year Plan to be realistic, the plan probably would involve a total length of about 6,000 km to be constructed in gathering crude oil pipelines, most of which would be located in the Ural-Volga oilfields. This length of 6,000 km represents about 80 percent of the length of 7,541 km in * For comparison, construction of new trunk oil pipelines in the US was at an average rate of about 9,370 km per year during 1950-52 and about 9,960 km per year during 1953-55. -16- S -E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 Li/X I Cflv 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T trunk pipelines for crude oil and would represent an average construc- tion rate of 1,500 km per year during the 5-year period.* 28-inch line pipe for several of the long transmission gas pipelines and some of the long trunk oil pipe- lines planned for construction under the original Sixth Five Year Plan in the USSR. of the total length of these new trunk pipelines for oil and gas, 10 percent will be 32 inches in diameter, 50 percent will be 28 inches in diameter, and 27 percent more will be between 20 and 28 inches in diameter. In early 1957, the actual manufacture and use of 32-inch line pipe was still experimental.** C. Traffic. According to the present estimates, the volume of transport in Soviet oil pipelines increased from about 2.7 billion ton-kilometers in 1946 to about 13.7 billion ton-kilometers in 1955.*** The volume thus * In the US in 1955 the total length of gathering crude oil pipe- lines constituted about 93.6 percent of the total length of trunk pipe- lines for crude oil. The construction of new gathering crude oil pipe- lines in the US was at an average rate of about 7,726 km per year during 1950-52 and of about 6,540 km per year during 1953-55. ** In the US there has also been a pronounced trend toward larger diameters in trunk oil pipelines, especially in trunk lines for crude oil. During 1950-52, for example, 40 percent of the installed length of new trunk oil pipelines in the US replaced trunk oil pipelines con- currently dismantled, and almost 48 percent of the new installed length was 12 inches in diameter or larger, whereas more than 93 percent of the dismantled length was less than 12 inches in diameter. In the US during 1953-55, about one-thitd of the installed length of new trunk oil pipelines similarly replaced trunk oil pipelines concurrently dismantled, than 51 percent of the new installed length was 12 inches in or larger, whereas almost 80 percent of the dismantled length than 12 inches in diameter. this oil pipeline traffic represented freight traffic by all carriers in 1955 in the in 1955, 1.4 percent of the total freight traffic in the European USSR and 0.9 percent of the total freight traffic in the Asiatic USSR were carried by oil pipeline. It is presently estimated that of the 13.7 billion ton-kilometers of oil pipeline transport, 9.6 billion ton-kilometers were accounted for by the European USSR and 4.1 billion ton-kilometers by the Asiatic USSR. and more diameter was less 1.2 percent of the total USSR. -17- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T increased 5.1 times during 1946-55. It is estimated, however, that during the same period the indigenous output of nongas petroleum stock increased from 40.2 million tons per year to 133.7 million tons per year, about 3.3 times, and that the volume of total traffic in non- gas petroleum increased from 45.1 billion ton-kilometers per year to 141.2 billion ton-kilometers per year, about 3.1 times. Hence the share of pipeline transport in the total traffic in nongas petroleum stock increased from 6.0 percent in 1946 to 9.7 percent in 1955. The corresponding percentage is estimated to have been 6.2 percent in 1950. In the postwar period in the USSR, there have been large in- creases in the traffic in other types of freight as well as in nongas petroleum, but at a somewhat less rapid rate of increase. Estimates show that the total traffic in nongas petroleum represented 11.0 per- cent of the total freight traffic in 1950 and that this percentaEe in- creased to 12.1 percent in 1955. Estimates also show that the relative share of the oil pipeline traffic in the total freight traffic has been likewise increasing, the increase being from 0.7 percent in 1950 to 1.2 percent in 1955 and to 1.6 percent in 1956. In spite of the emphasis in the Soviet press on the need for reduction in the share of nongas petroleum in the total freight by railroad, estimates show that this share actually increased from 8.6 percent in 1950 to 10.5 percent in 1955. In the original Sixth Five Year Plan, 83 billion ton-kilometers is the goal for 1960 in oil pipeline traffic, about 6 times as much as in 1950, and it appears that this traffic in 1960 will represent 25 percent of the total traffic in nongas petroleum by all carriers and 4.6 percent of the total freight traffic in the USSR. Estimates further show that in 1960 the total traffic in nongas petroleum will represent 18.4 percent of the total freight traffic and that nongas petroleum still will account for a share of 10.6 percent in the rail- roarl freight. oil pipeline traffic essentially resolves as a matter of statistics. Estimated statistical data are accordingly presented for the USSR as follows: traffic in nongas petroleum by oil pipeline and by other types of carriers, 1940-55, and that planned for 1960, in Table 6*; total freight traffic by oil pipeline and by other types of carriers in selected years, 1913-56, and that planned for 1960, in Table 7**; transportation balances in traffic in nongas * Appendix A, p. 53, below. ** Appendix A, p, 55, below. -18- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E -C -R-E -T petroleum by oil pipeline and by other types of carriers, 1950, 1955, and that planned for 1960, in Table 8*; transportation balances in total freight traffic by oil pipeline and by other types of carriers, 1940, 1950, 1955, 1956, and that planned for 1960, in Table 9**; break- down of railroad freight traffic showing the relative share of nongas petroleum in the traffic, 1950, 1954, 1955, and that planned for 1960, in Table 10.*** Similarly as in the instances of estimated data on lengths and diameters of Soviet trunk oil pipelines, the estimated data on traffic in oil pipelines in the USSR have greater significance when they are compared with corresponding data for countries in which the potentials are better understood. Corresponding data for the US are included for such comparison in Tables 8 and 10, even though corresponding data are not always available for exactly the same years in the US and the USSR and even though there are no planned goals for 1960 in the US. Table 8 illustrates the different traffic patterns for nongas petroleum in the USSR and the US. It is indicated that the average distance of transfer in this over-all traffic is much longer in the USSR than in the US but that the reverse has been true in regard to the average distances of transfer in oil pipeline traffic. As planned for 1960 in the USSR, the average distance of transfer in oil pipeline traffic is to be much increased but not quite enough to equal the corresponding distance as of 1955 in the US. Compared with the 9.7 percent in 1955 and the 25 percent planned for 1960 in the USSR, the share of the oils pipelines in the over-all traffic was equal to about 45 percent as of 1955 in the US. As shown in Table 10 for the relative share of nongas petroleum in total freight traffic by railroads, the percentages as of 1950-55 and as planned for 1960 in the USSR are about three times the correspond- ing percentages as of 1950-53 in the US. Comparative data are shown in Table llxxxx for correlation of potential transfer distances by oil pipeline traffic in the USSR and the US. The use index is developed as defined in Table 11, giving the ratio of oil pipeline traffic to indigenous output of nongas petroleum. Appendix A, p. 57, below. ** Appendix A, p. 59, below. XXX Appendix A, p. 63, below. *xxx Appendix A, p. 65, below. - 19 - S -E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Other than for the relatively small quantities of solid petroleum products normally included in the output, this output constitutes the principal oil stock potentially available for separate transfer in oil pipelines. Except where other factors are controlling, the resulting indexes stand in ratios approximating the ratios between average distances of transfer in oil pipeline traffic. Comparative data are shown in Table 12* for prewar and post- war net delivery of crude oil to refineries in the USSR and the US. Table 12 quantifies the large increase in availability of trunk crude oil pipelines by 1954 in the USSR, as previously mentioned.** As of 1956 in the USSR, essentially all of the net delivery of crude oil to refineries was by oil pipeline. It is noted that the percentage data in Table 12 have been misinterpreted being given sometimes as applicable to the total mass of transfer (or tons originated) in the total traffic in crude oil, sometimes as applicable to the total mass of transfer (or tons originated) in the total traffic in nongas petroleum, and even sometimes as applicable to the ton-kilometers of traffic in non- gas petroleum. * Appendix A, p. 65, below. ** III, A, p. 11, above. - 20 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 bUA"I Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S -E -C -R -E -T IV. Gas Pipelines. A. Operating and Under Construction, 1 January 1957. The operating length of all transmission gas pipelines in the USSR is estimated to have increased from about 700 km in 1945 to about 7,000 km in 1956, or about 10 times during 1946-56 and about 2.2 times during the course of the Fifth Five Year Plan. The operating lengths of the major transmission gas pipelines in the USSR, each of which is at least 100 km long, are estimated to have been'about 1,720 km in 1950, about 3,750 km in 1955, and about 5,050 km in 1956. The operating transmission gas pipelines, shown in Table 13, were about 7,037 km long on 1 January 1957. This total length con- sists of 6,296 km for natural gas and 741 km for manufactured gas. Available data provide no film basis for estimating the total lengths of the collection and distribution pipelines installed for fuel gas service in the USSR. The 7,037 km of transmission gas pipe- lines, however, probably constituted at least 50 percent of the total length of Soviet fuel gas pipelines in 1956. Available data generally indicate that pipelines for the collection and distribution of gas are relatively shorter in the USSR than in the US and that transmission gas pipelines are relatively longer. A comparison of the total lengths of fuel gas pipelines in the USSR with those of the US is shown in Table 14.** the gathering gas pipelines in the USSR are more restricted to the larger producer wells, which are more centrally located in the gas fields, than are those in the US and also that the dis- tribution gas mains typically lead to more centralized units of consump- tion in large apartment houses, industrial enterprises, and public and government establishments. Exploitation of resources of fuel gas is re- latively new in the USSR, and further exploitation is given high priority in the original Sixth Five Year Plan. It probably will be many years, however, before the USSR can attain a status comparable to the US in the collection of natural gas from a wide scattering of small producer wells as well as from large producer wells and in the distribution of fuel gam over extended areas for small unit consumptions. * Appendix A, p. 67, below. ** Appendix A, p. 71, below. - 21 - S -E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: .01A-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E -C -R -E -T Practically all of the exploitation of fuel gas in the USSR has been in the postwar period, beginning with 1946. In 1945 the Saratov and Dashava areas contained the major natural gas fields then explored. Before 1946 there was only local exploitation of the Saratov gas fields, supplying gas chiefly to the city of Saratov Before 1948 the only exploitation of the Dashava fields was also local, supplying gas chiefly to the cities of Ltvov and Stryy The other known major exploitations of fuel gas in the USSR in 1945 were of natural gas produced in the general vicinity of oil- fields. Transmission gas pipelines connecting the sources with eight cities of considerable size are as follows: Oilfield Buguruslan Yablonovo Malgobek Izberbash Baku/Apsheron Andizhan Cities Buguruslan, Kuybyshev Kuybyshev Malgobek, Groznyy Makhachkala Baku Andizhan By 1945, in some of these cities that were furnished with natural gas, and likewise in certain other large cities of the USSR; there probably existed limited supplies of manufactured gas derived from coal in local gas plants.* Moscow and Leningrad, for example, probably had such supplies. In 1956, fuel gas in appreciable, but by no means abundant, quantities was supplied by transmission gas pipelines to more than 50 cities of considerable size compared with service to about 10 cities in 1945. An incomplete list of these cities included the following, given in decreasing order of probable population: * For the purposes of this report, local gas plants are considered to have direct connection with the distribution gas mains of the local areas and, for that reason, to have no connections with trans- mission gas pipelines. - 22 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 City Moscow Leningrad Kiev Baku Khar'kov Kuybyshev Dneprepetrovsk Kazan' Rostov Molotov Stalingrad Saratov Voronezh L'vov Tula Krasnodar Ufa Tallinn Voroshilovgrad Gro znyy Chernikovsk Taganrog Dneprodzerzhinsk Ordzhonikidze Ryazan' Poltava Stavropol' Andizhan S-E-C-R-E-T City Podol'sk Bryansk Zhitomir Kolomna Novorossiysk Stalinogorsk Makhachkala Vinnitsa Serpukhov Kaluga Bezhitsa Berdichev Stanislav Chernigov Yelets Drbgobych Yefremov Ternopol' Borislav Morshansk Buguruslan Nebit-Dag Stryy Leninsk Ostrogozhsk Malgobek Khmel'nitskiy Mirgorod As shown in Table 13, 58 transmission gas pipelines* are identified as facilities completed for operation by 1 January 1957. Forty-seven of these lines are shown in service for large cities, and connecting lines, minor branch lines, and other types of minor lines in local areas account for the remaining 11 50X1 50X1 * Fifty-eight pipelines are denoted by gas pipeline index numbers in Table 13, but 71 separate pipelines are involved (see Table 13, FflXI and footnote p). 50X1 -23 - S -E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : IA-RDP79R01141A001000140002-2 S-E-C-R-E-T Although the 58 pipelines are considered to be trunk or transmission gas pipe- lines, a number of the lines are relatively short in length.* 50X1 The principal natural gas pipelines listed in Table 13 serve for exploitation not only of the major gas reserves in the older Dashava and Saratov areas but also of the recently discovered ma'or gas reserves in the Stavropol' and Shebelinka areas (Gas Pipeline from Shebe- 50X1 linka is the lead portion of Planned Gas Pipeline which will have 50X1 a total length of about 500 km when completed). The other natural gas pipelines of various lengths listed in Table 13 are auxiliary to the principal natural gas pipelines or are in service for exploitation of other gas reserves, including some reserves that are very large, sev- eral reserves that are new, and many reserves that are located in the general areas of oilfields. Of these other natural gas reserves connected with the trans- mission gas pipelines, the following are important enough to warrant specific mention: the Borislav area in the western Ukraine; the Ugersko stebout from Dashava; the Mirgorod area in the central Ukraine; the Buguruslan, Minibayevo, Tuymazy, and Molotov areas in the Ural-Volga oilfield region; the Archeda field in the Stalingrad area; new fields in the general area of Krasnodar; various fields, old and new, in the Groznyy area; the Izberbash field in the Makhachkala area; the large new Karadag field together with older fields in the Baku area; minor fields in the Turkmen and Fergana area; and long-neglected minor gas reserves in the Okha area of Sakhalin. Manufactured fuel gas has been exploited to some extent by means of transmission gas pipelines constructed in the USSR after World War II. As shown in Table 13, the principal pipelines of this type con- nect Leningrad and Tallinn with the shale gas plants in Estonia and con- nect Moscow with the larye new coal gasification plant at Shchekino near Tula. Although the present report does not cover the data on the plants producing manufactured fuel gas, it is noted that the existence in 1956 of about 250 plants producing manu- factured fuel gas in the USSR, presumably including the shale gas * Except for the traces of min the index numbers pipelines are shown on the map, description of Figure 6, see B, or siselines c sponding to two of the traces of these Figure ? inside back cover). For a pp. 28-29, below. -24- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 5nx1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T plants, the coke oven gas plants that process coal materials, and the local gas plants that gasify coal materials directly. The coke oven gas facilities appear to be connected with direct local gas distribu- tion as well as with transmission gas pipelines. B. Planned. The directives of the original Sixth Five Year Plan of the USSR stated that 9,000 km of transmission gas pipelines were to be constructed in 1956-60. increased commit- ments for this planned length and early in 1957 stated that the con- struction would be about 12,000 km. Based on Soviet data as of early 1957, the following lengths are estimated for planned transmission gas pipelines: 12,266 km con- firmed as completions for new operation in 1956-60, including 11,661 km for natural gas and 605 km for manufactured gas; 1,875 km completed for new operation in 1956, with construction work under way on 1,864 km more in 1956; 2,315 km identified as scheduled to be completed for operation in 1957; 1,654 km identified as scheduled to be completed for operation in 1958; and a total of 6,721 km identified as scheduled to be under active construction in 1957. Apparently, however, only 1,615 km of the line pipe were installed in place in 1956. Construction work is scheduled for 1956-60 on 1,700 km of transmission gas pipelines which are not scheduled to be completed for operation until after 1960, and the possibility of constructing 2,027 km of transmission gas pipelines which are not known to be con- firmed as official plans. Table 15* summarizes the data available early in 1957 which deal with 81 transmission gas pipelines planned or constructed subse- quent to 1955 in the USSR, chiefly in conjunction with the original Sixth Five Year Plan. Traces of the pipelines listed in Table 15, with the exception of two minor ones, are shown on the map, Figure 6,** and the map shows general distinction in these traces as to the construction status in 1956. Table 13 includes 15 of the pipelines listed in Table 15, 14 of them being shown in Table 13 as completed in 1956*** and the * Appendix A, p. 73, below. ** Inside back cover. *** In 1 of these 14 lines, all but the minor lead portion was completed for operation before 1956. -25- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T remaining 1 being shown as under construe- 50X1 tion in 1957 with the lead portion completed for operation in 1956. The chronology of transmission gas pipeline construction in the USSR is shown in Table 16.* Tables 13 and 15 are based on the Soviet data available early in 1957. Other new reliable data were appearing later in 1957, how- ever, and when these are more completely analyzed, Tables 13 and 15 may be revised, particularly the data for construction in 1950-56 and the plans for 1956-60 and later.** As shown in Table 15, the 81 transmission gas pipelines gen- erally will serve for additional exploitation of most of the major fuel gas resources already exploited in 1955-56. In particular, pipe- lines to be completed for operation in 1957-60 will transport more gas from the major natural gas reserves in the Stavropol' and Shebelinka areas and apparently will round out the exploitation of the Dashava- Ugersko natural gas reserves. Other new pipelines will serve the fol- lowing significant areas and reserves of natural gas; the newly developed Kosov, Zakarpatskaya, and Mikhaylovka areas in the Ukraine; the Mirgorod area in the Ukraine; in the Ural-Volga oilfield region, the newly de- veloped Mukhanovo reserves in the Kuybyshev area, the reserves of the Al'met'yevsk area, and the newly developed and reportedly large reserves of the Shkapovo area; the newly developed and reportedly large Stepnoye reserves near Saratov; several newly developed reserves in the general areas of Stalingrad, Krasnodar, and Groznyy; in the Baku area, especially the Karadag reserves and the newly developed Siazan' reserves, re- spectively located to the south and north of Apsheronskiy Poluostrov (Apsheron Peninsula); the newly developed Kizyl-Kum reserves in Turk- men and the newly developed Khodzhiabad reserves in the Fergana Valley; and the reserves of the Okha area on Sakhalin. One principal pipeline also will 50X1 lead to initial exploitation of recently discovered natural gas re- serves at Berezovo in the Arctic tundras of western Siberia. In addi- tion, there may be major exploitation of the recently explored natural gas reserves located near Ukhta in the Arctic (see Table 15, 50X1 and footnote w). 50X1 * Appendix A, p. 83, below. ** of transmission gas pipelines were scheduled for construction USSR during the original Sixth Five Year Plan. 50X1 1,800 km of transmission gas pipelines were scheduled for con- 5UX1 struction in the Ukraine during the original Sixth Five Year Plan, but 50X1 a large increase in that planned total. 50X1 - 26 - 16,000 km 50X1 in the S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T The planned pipelines provide for some additional transport and distribution of manufactured gas. One of the major lines is a second transmission gas pipeline connecting Leningrad with the Kokhtla- Yarve shale gas plants, and there will be new transmission gas pipe- lines for coke oven gas in the Donbas and Pridnepr areas of the Ukraine (see Table 15, footnote aa). during the period of the original Sixth Five Year Plan new supplies of fuel gas will be provided for 132 cities in the USSR, including 56 cities in the RSFSR and 54 cities in the Ukraine. there was formerly no supply of fuel gas for 93 of these cities, including 35 cities in the Ukraine and 58 elsewhere. Available data indicate that in 1957-60 transmission gas pipeline service will be provided for the first time to at least 28 major cities each with a probable population of 100,000 or more. A list of these cities is as follows, given in decreasing order of probable population: City Gor'kiy Stalino Odessa Riga Minsk Zaporozh'ye Krivoy Rog Makeyevka Magnitogorsk Zhdanov Gorlovka Nikolayev Villnyus Shakhty City Kursk Kadiyevka Dzerzhinsk Chernovtsy Kherson Vitebsk Orel Kramatorsk Kirovabad Armavir Nikopol' Konstantinovka Yenakiyevo Novocherkassk Except that the service may not be provided until after 1960, at least three other metropolitan cities fall in the same group: Sverdlovsk, Tbilisi, and Yerevan -27- S -E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E -C -R -E -T It is estimated that 5,162 km of transmission gas pipelines were operating in 1955 in the USSR. If 12,266 km of transmission gas pipelines are completed for operation during the period covered by the original Sixth Five Year Plan, the total length of transmission gas pipelines scheduled for 1960 will be 17,428 km, an increase to about 3.4 times the length in 1955 during the period of the plan. The installation of 12,266 km of gas pipelines under the plan corresponds to an average rate of about 2,450 km per year.* The present estimate of 1,615 km of transmission gas pipe- lines installed in place in 1956 is to be compared with citations which range from 1,400 km to 1,700 km for the length in- stalled" in 1956. The estimated length of 1,875 km for the completion of such lines for new service in 1956 is less than the required aver- age of 2,450 km per year. It appears that in 1956 the USSR utilized to the limit all of the capabilities of the country for supply of line pipe to transmission gas pipelines (see Table 15, footnote z). As in the case of trunk oil pipelines, maximum use of increasing capabili- ties apparently will be required for the USSR to fulfill the goal of the original Sixth Five Year Plan for construction of transmission gas pipelines. Early in 1957, 2,390 to 3,000 km of the transmission stalled" in 1957 in the USSR. of this "installation" in 1957 will be in the Ukraine 300 km of branch lines from Planned Gas Pipeline gas pipelines were 50X1 from 50X1 to be "in- about 850 km 50X1 including about and that the 50X1 "installation" would be in addition to the 150 km of natural gas field collection lines already being constructed. Table 15 identifies 2,315 km of the lines as scheduled to be completed for new operation in 1957. 8,000 km of distribution gas pipelines are planned for construction in 1956-60, including 3,900 km in the RSFSR and 2,500 km in the Ukraine. The total length of 8,000 km represents an average installation rate of 1,600 km per year.xx Different colors on the map, Figure 6,*** serve to distin- guish the traces and gas pipeline index numbers of the completed * The net addition to transmission gas pipelines in service in the US was at an average rate of about 10,140 km per year during 1946-55. ** The net addition to distribution gas pipelines in service in the US was at an average rate of about 16,800 km per year during 1946-55. *XX Inside back cover. -28- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T pipelines as differentiated from the traces and planned gas pipeline index numbers of the pipelines that were projected for future comple- tion. Different types of trace lines on the map distinguish the traces of the pipelines for natural gas, the traces of the pipelines for manu- factured gas, the traces of the projected natural gas pipelines which probably will be completed after 1960, and the traces of the projected natural gas pipelines which appear to be doubtful or canceled as offi- cial plans.* Some of the pipeline routes, however, are schematic on the map and may only approximate the route lengths as given in Tables 13 and 15. Symbols are applied on the map to show the locations of the most important natural gas fields and the sites of the most important fuel gas manufacturing plants. The transmission gas pipelines connected to these sources of fuel gas are also shown. Two sizes of symbols of each type denote relative magnitude of output of fuel gas. C. Capacity, Distribution, and Sources. Available .data are too fragmentary for a realistic estimate of the actual volume of transport in the Soviet gas pipelines. Published figures in Soviet and non-Soviet sources for throughput capacity** ratings in some of the more important of the lines, although often in- consistent among themselves, have been used to estimate the capacity ratings shown in Table 17.*** The capacity ratings are subject to a considerable range of error but nevertheless are indicative and fairly consistent with related data. Table 17 covers only the major trans- mission gas pipelines in service in 1956. In Table 18,**** potntial service factors are developed, show- ing the relations between the fuel gas produced and the total length * All other projected pipelines shown on the map presumably are planned for completion during 1957-60. The unpublished appendixes con- tain data on a number of totally improbable transmission gas pipelines for the USSR, allegedly installed or planned in the past, including a few that are allegedly planned for construction under the original Sixth Five Year Plan ** Throughput capacity is a time-rate, being a function of the dia- meter of the pipeline and the velocity of flow as well as of other fac- tors. *** Appendix A, p. 85, below. **** Appendix A, p. 87, below. -29- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : -2,IA-RDP79R01141A001000140002-2 S-E-C-R-E-T of transmission gas pipelines in operation. Table 18 shows a com- parison between the USSR and the US in this respect. The data in Table 18 indicate that the planned expansion in fuel gas output in the USSR is at a higher relative rate than is the planned increase in length of transmission gas pipelines. Moscow and Leningrad were the major centers of consumption of fuel gas in 1956 in the USSR. I early in 1956 fuel gas was supplied to Moscow at the following rates, mostly by means of transmission gas pipelines: Type and Source Coke oven gas from a large plant in the suburbs Gas from local coal gasification plants Total Amount (Million Standard Cubic Meters Per Year) 475 155 260 830 520 2,211O ____ in 1956 Leningrad had a local coal gasification plant with an output of 65 million standard cubic meters of gas per year. In 1955, there were possibly 2,000 km of distribution gas mains in Moscow and 800 km in Leningrad. Of the 2,000 km in Moscow, 350 km were constructed during 1952 and 200 km during 1955. Recent construc- tion of distribution gas mains in Moscow has included extensions to the suburban areas: for example, a 15-km main was completed early in 1956 to serve the Kuntsevo area. During 1956-60, 700 km are scheduled to be added to the Moscow mains. Of the length of the gas mains in Leningrad, 654 km existed in 1954 but only about 80 km in 1945. Dur- ing 1956, 100 km were scheduled to be added to the Leningrad mains, -30- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 5nx1 50X1 50X1, 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T and 400 km were scheduled to be added during 1957-60. In all of the RSFSR, 470 km of distribution gas main were scheduled to be constructed during 1956, and 3,430 km more were scheduled to be constructed during 1957-60. In Kuybyshev, 210 km of distribution gas mains were constructed during 1949-52, and 90 km of gas mains were constructed during 1955 in Kuybyshev, Saratov, Ryazan', and Krasnodar together. During 1956, 46 km of gas mains were scheduled to be constructed in Kharikov. During 1956-60, plans call for the construction of 60 km of gas mains in Vil'nyus and for an increase in the length of gas mains in Stalino to 200 km. In 1955, 8 km of distribution gas mains existed in Dneprodzerzhinsk. 150X1 50X1 50X1 50X1 50X1 50X1 50X1 ' According to Soviet data on the original Sixth Five Year Plan, about 1.25 million additional apartments are to be gasified in the USSR. This figure includes 610,000 apartments in the RSFSR, 100,000 of which were to be gasified in 1956. Under the plan, 200,000 addi- tional apartments are to be gasified in Moscow, so that a total of 700,000 apartments will be gasified in that city by 1960. In Lenin- grad, 75,000 additional apartments are to be gasified, including * This enumeration of the mechanical units in Moscow probably is in- dependent of the enumeration of apartments or housing units. -31- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : .7,1A-RDP79R01141A001000140002-2 S-E-C-R-E-T 8,000 in 1956, and 28,500 additional apartments are to be gasified in Kuybyshev. in 1956 there were about 120,000 gasified apartments in Baku and about 8,000 in Stalingrad. in 1956-60 about 250 "giant" industrial plants in the USSR will be converted to fuel gas as a source of energy. nating the large waste represented by burning progress is being made in elimi- of natural gas in the producing fields of the USSR in flares and by other loss to the atmosphere.* even though the transmission gas pipelines in stripped associated gas as well as crude dry natural percent of the gross associated natural gas was the USSR transport gas, only about 40 actually recovered as of 1955 in the oilfields.** in the future there will be more efficient recovery of the increasing gross production of associated gas in the oilfields. 4o new natural gas deposits and 89 new natural crude oil deposits were discovered during 1951-55 in the USSR. The most prolific of the gas deposits appear to have been of the dry gas type and to be located in the Stavropol' and Shebelinka areas. 1 billion standard cubic meters of natural gas was thus wasted in 1946 at the producing wells in the Baku area. ** Associated natural gas is associated with natural crude oil in the natural reservoir traps. Stripped associated gas is the dry natural gas derived from this associated gas after removal of natural gas liquids as condensates in the recovery plants. Crude dry natural gas occurs mostly by itself in the natural reservoir traps and in normal instances is composed predominantly of volatile hydrocarbons, chiefly methane, without a content of the hydrocarbon vapors that will condense and form natural gas liquids where these natural gas liquids consist of lique- fied petroleum gas, natural gasoline, and occasionally cycle products of the kerosine type. Although crude dry natural gas is to be found only in gas wells, it is noted that gas wells often yield in place of the dry gas a wet natural gas which contains condensible vapors of natural gas liquids and which is similar to associated gas in that re- spect. In the US in 1954 the dry natural gas for pipeline transmission to market consisted of about a third of crude dry natural gas, about a third of dry gas stripped out of wet gas from gas wells, and about a third of dry gas stripped out of associated gas from oil wells. The evidence is very confusing, however, in regard to Soviet exploitation of wet gas from gas wells. In this report the term dry natural gas means crude dry natural gas unless otherwise stated. -32- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1! 50X1 50X1 nx?I 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Dry natural gas constitutes the reserves in the major gas field areas: the Dashava area with the newly developed Ugersko step- out, the newly developed Shelbelinka area, the Saratov area and the newly developed Stepnoye area correlated with it, and the Stavropol' area on the northern Causasus steppes. It is probable that dry gas also constitutes other newly developed reserves in areas of lesser potential such as the following: in the Ukraine, the Kosov, Mirgorod, and possibly other areas; on the northern Caucasus steppes, the Il'skiy area containing the Akhtyrskaya and Anastasiyevka deposits, the Aleksandrovka area, and possibly other areas; the Kizyl-Kum area in Turkmen; and the potential Berezovo area in the Siberian Arctic. Some of the older exploited gas reserves in the general regions of oilfields -- for example, the Buguruslan reserves and the Izerbash reserves -- probably likewise contain dry gas. Other natural gas reserves, some of which are of major signi- ficance and most of which are located in or near major oilfield regions may contain either associated gas or dry gas. 50X1 gas comprises some of these other reserves, as follows: in the Ural-Volga oilfield region, the newly developed and large reserves of Minibayevo and Shkapovo and certain older and lesser reserves such as those at Tuymazy and Yablo- novo; most of the reserves in the Baku area, including the newly developed and large reserves at Karadag; and the Fergana Valley re- serves at Khodzhiabad. Although the present report does not cover data on the plants which process fuel gases and petroleum, there is Soviet confirmation* that increasing emphasis is being placed on the recovery of natural gas liquids and stripped associated gas (see Table 14, footnote e). a new natural gas liquids recovery plant at Nizhnyaya Maktama began to operate early in 1957 and delivered stripped associated gas through local transmission gas pipelines to Buzul'ma and Al'met'yevsk and also, possibly through Gas Pipelines l Ito Kazan', Ufa, and Chernikovsk. A second part of this new recovery plant was reported to be scheduled for completion in 1957. From Al'met'yevsk it is possible that stripped accociated gas is to be furnished to Stavropolikrasnyy From Kazan', stripped associated gas will be furnished to Cheboksary and Gorikiy through Planned Gas Pipeline and to Yoshkar Ola through Planned Gas Pipeline -33- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 5C50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E -C -R -E -T In addition to the facilities for coke oven gas of the Donbas and the Pridnepr areas which are serviced by transmission gas pipe- lines (see Table 15, footnote aa), and the local coal gasification plants in Moscow and Leningrad, other important coal gasification plants existed in 1956 as a source of fuel gas in local areas of the USSR. Some of these plants are here mentioned for reference as follows: coke oven gas facilities at Kaliningrad, reportedly restored in 1951-55; coke oven gas facilities at Magnitogorsk and also in the "new lands" area at Kemerovo; a restored coal gasification plant at Vyborg in the Leningrad Oblast; and the underground coal gasification projects of the Podzemgas Research Institute at Tula, at Lisichansk, and also in the "new lands" area at Kiselyevsk near Kemerovo. The original Sixth Five Year Plan further called for the con- struction of a number of significant coal gasification plants which also would supply fuel gas to local areas. Examples of these pro- posed plants are as follows: coke oven gas facilities at Chelyabinsk and in the "new lands" area at Stalinsk near Kemerovo and at Nizhniy- Tagil near Sverdlovsk and a coal gasification plant in the "new lands" area at Pavlodar. In addition, manufactured fuel gas derived from coal reportedly is to be furnished in 1956-60 to Serpukhov and Podol'sk, possibly through Gas Pipeline and to Sverdlovsk, possibly from Nizhniy-Tagil. The USSR has actively experimented not only with the tech- niques of underground coal gasification -- a new process that is still in the development stage in the West -- but also with a process for the recovery of methane gas for fuel gas use by exhausting the methane gas from coal mines, where this gas is generated as the dangerous and explosive "fire damp," or "marsh gas," by spontaneous decomposition of coal, the methane recovery process was applied early in 1957 to coal mines at Shakhtarsk and Chistyakovo, plans for producing only about 350 million standard cubic meters per year by the methane recovery process by 1960. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X11 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T V. Conclusions. A. Capabilities and Technological Considerations.* The practices and equipment now applied by the USSR for struction of oil and gas pipelines are described and Soviet technology seems generally comparable to that The USSR has acquired this technology within a period of mostly by following the patterns already fully developed Only in a few instances is there evidence of significant or invention in what has been done in the USSR. con- of the US. a few years, in the West. originality It is probable that the USSR still lacks the finesse which has been attained in the West by years of experience in construction operations and in the manu- facture of equipment and material. mechanization of construction work. recent Soviet progress in The mechanization is reported to have resulted in high-speed installation of pipelines. The digging of trenches, the laying of metal pipe, and most of the other heavy labor processes are said to be fully mechanized. Self-propelled exca- vators have replaced manual trench digging, and a factory at Leningrad is said to have produced a new type of machine** for the laying of long- distance pipelines. It is claimed that the machine has one-third more power than older types. This machine is an integrated, mechanized unit which serves to clean, insulate, and place the line pipe in the trenches. It is said that bulldozers are used to fill the trenches. progress in the use of new automatic and semiautomatic devices for pipe welding, claiming not only that electric arc welding has replaced the use of welding torches where electric welding is applicable but also that progressive electric weldingxxx machines have come into use for joining pipe ends without the need for separate electrodes or flux. Although it is true that such progressive electric welding is applicable to only certain services and that even the oxyacetylene torch process is still desirable in some instances, it is also true, that the older manual operations are especially handicapped in use for overhead ** Mechanized column. *** Contact or resistance welding with ring transformer. -35- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T welding. state that magnetographic methods for testing welds have come into use.* 50X1 50X1 50X1, 50X1 in the efficient use of 50X1 mechanization there is need for improvement, and Soviet officials set up as a goal a world record achieved in the West, wherein 1,000 km of pipeline were installed in 2 months over a previously prepared right-of-way. urge the use of longer pipe sections to 50X1 increase the speed of installation and to reduce the time and cost in welding. Six-meter pipe lengths appear to have been standard in the USSR, and 12-meter and even up to 36-meter lengths are reportedly now coming into use. Pleas for reduced cost of construction without loss in utility are generally present in the Soviet sourc s which are crit- ical of the progress made. propose the use 50X1 of modern radio communication to replace the more expensive telegraph and telephone lines at present required along the routes of the Soviet pipelines. The USSR does not appear to have attained a very high level of efficiency in the utilization of the installed oil and gas pipelines. Soviet sources note that more efficient design is required for equip- ment and housing at pumping and compressor stations and that closer spacing of the stations within optimum limits would serve to increase the capacity of the lines.** propose more use of automatic control devices for more efficient operation of the pipe- lines. Available evidence shows that Soviet pipelines are at present deficient in modern devices for automatic control of the flows. * Techniques using radioactive cobalt isotopes are also mentioned. ** In December 1955 an official Soviet source mentioned 50-atmos- phere gauge for design pressure in gas pipelines. -36- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T because of the absence of auto- matic controls on the Saratov-Moscow gas pipeline, the first long transmission gas pipeline to be installed in the USSR, 100 employees are required at each of the 6 compressor stations and a total of 1,000 employees is required for operation of the transmission pipe- line, which is 12 inches in diameter and 843 km long. urge that the automatic controls be applied not only to increase efficiency of the pipelines but also to reduce maintenance and other operation costs of the oil and gas pipelines. In discussing progress to be made during the original Sixth Five Year Plan, the future use of auto- matic controls on oil pipelines to the extent that a dispatcher could sit at a control panel in Ufa and from there control the flow of oil in the pipelines (presumably several oil pipelines with an aggregate length of several thousand kilometers). The goals of the original Sixth Five Year Plan for construction of oil and gas pipelines appear to be within Soviet capabilities, although these goals probably will require maximum use of the capabilities. Referring to what is shown by comparison with corresponding facilities and installations in the US, the relatively greater length of the Soviet trunk oil pipelines is made necessary by the greater dis- tance of major crude oilfields from major areas of processing and of major areas of processing from major areas of consumption of the oil products. The relatively greater average diameter is explained by the fact that the economic advantage of petroleum pipeline service, especially in a long pipeline, generally increases with an increase in line pipe diameter up to an optimum diameter established by physical limitations and by the quantity of petroleum stock to be transported. the economy resulting from use of pipe of large diameter when pipelines are long. As direct results of Soviet plans and current practices in the location of new oil-processing facilities -- the selec- tion of major areas of consumption of the oil products rather than areas centralized relative to the crude oilfields -- future product oil pipe- lines in the USSR probably will be decreased in average length and line pipe diameter. The future trunk lines for crude oil, however, probably will be longer than the present lines. B. Vulnerabilities. The USSR may be especially vulnerable in dependence on services of 30 or more major trunk oil pipelines of large diameter. Permanent -37- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 5UX1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : .7,1A-RDP79R01141A001000140002-2 S-E-C-R-E-T loss of the service of a particular trunk oil pipeline might cause serious difficulty in the Soviet petroleum industry, especially be- cause of the heavy freight traffic in ?etroleum already imposed on Soviet railroads, an average trunk oil pipeline 200 km long could transport in 24 hours the same amount of oil as could be moved by 1,400 railroad tank cars. in 1954 the average daily load of the Soviet oil pipelines was the equivalent loading of 6,600 railroad tank cars and that 33,000 railroad tank cars would be required in continuous service to replace the oil pipelines. Mass utilization of fuel gas is in the early stage of develop- ment in the USSR. Twelve large-size transmission gas pipelines, each at least 100 km long, existed in the USSR by the close of 1956, and construction was in progress on one or more other lines of equal or greater length and diameter. There is an apparent vulnerability in these long and large-size transmission gas pipelines to the extent that the Soviet economy is dependent on the use of gas for fuel or other purposes, a dependence which will increase. C. Intentions. The present analysis of pipelines in the USSR reveals no reli- able indications of the military intentions of the government. It is apparent that the USSR intends to correct as rapidly as possible the present acute deficiency in the extent of existing oil pipelines and the present low level of efficiency in the utilization of such lines. Although the original Sixth Five Year Plan appeared to involve a two- fold increase both in the production of crude oil and in the total in- stalled length of trunk oil pipelines, the plan still proposed to in- crease sixfold the annual traffic in oil pipelines, so that the share of the oil pipelines in total petroleum transport would increase 2.5 times. It is also apparent that the USSR intends to expand on a large scale the exploitation and utilization of extensive resources of natu- ral gas formerly undeveloped and to build the necessary transmission gas pipelines. This planned expansion appears to be consistent with Soviet capabilities. -38- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 FflY 1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T APPENDIX A STATISTICAL DATA This appendix contains the tables referred to in the text and also the charts which illustrate some of the data on which the tables and the text are based. The total length of operating trunk oil and gas pipelines in the USSR and the US in 1945-56 and those scheduled to be built under the original Sixth Five Year Plan of the USSR is shown in Figure 2.* The data used in Figure 2 were extracted from Tables 1, 2, 3, 5, 13, 14, 15, and 16. The transport of nongas petroleum, by type of carrier, in thc USSR in 1940-55 and as originally planned for 1960 is shown in Figure 3,** and the percentage of the transport of nongas petro- leum attributed to each type of carrier in the USSR in 1940-55 and as originally planned for 1960 is shown in Figure 4.** The data for both Figure 3 and Figure 4 were drawn from Table 6. To facilitate the comparison of the transport of petroleum in the USSR with that of the US, the transport of nongas petroleum, by type of carrier, in the US in 1940-55 is shown in Figure 5.*** Figure 5, which may be compared with Figure 3, is based primarily upon the data in Table 8. Following p. 48. Following p. 54. Following p. 58. -39- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Table 1 TRUNK OIL PIPELINES IN THE USW' OPERATING OR UNDER CONSTRUCTION 1 JANUARY 1957 Origin Intermediate Points and Terminals Baku Kukheti, Batumi Baku Batumi Malyy e Sltiraki K ukheti NIalyye Shiraki Mirzaani Mirzaani Kachreti Ostrov Artona Baku Makhachkala Groznyy Makhachkala Groznyy Malgobek G'roznyy G? roznyy Mozdok, Arinavir, Kosh (Nlaykop), Tuapse Malgobek Mozdok " Khadyzhenskaya K? osh (Nlaykon) Abuzy K? hadyzhenskaya Shirokaya Balks (Shiraky) Khadyzhenskaya Asfal'tovaya Gore K? hadyzhenskaya " N? eftegorsk Kosh (Maykop) Neftegorsk Krasnodar Novogroz.nenskoye Oilfield Groznyy Groznyy Arrnavir Armavir T? rudovaya " Astrakhan' Saratov Sara to y , Kazan' Gur'yey Iskine, Dossor, .Makat , Kandagach, Orsk Kandagach Orsk BaychnnaS Iskine Dossor Rakusha Koschagyl Nlakat Kul'sari Koschagyl Borshoy Peshnoy Ostrov Gur'yey N? ebit-Dag Oilfields Krasnovodsk Ma3?Iysay L? eninsk (Assake) Leninsk (Assake) Vannovskiy P? alvantash Leninsk (Assake) Andizhan Leninsk (Assake) Yuzhnyy Alamyshik " Crunch Mazer Chimion Vannovskiy Changara Vannovskiy Shor-Su K? im Kiin M? ernikovo Kim Mernikovo Yablonovo Syzran' APmet'yevsk Ishimbay ? Ishimbay Ok tyabr'skiy Oktyabr'skiy Oktyabr'skiy 'Iuyntazy Omsk Okha West Ekhabi South Ekhabi Okha Oilfields Kuybyshev lz berbash Krasnodar Stryy Drogobych Buguruslan Novostepanovka Pilyugino Zol'noye Zol'uoye Urbakh (Pushkino) Ufa Laguri Magadan Rent Baku Baku Makhachkala Astrakhan' Clur'yey Kaluzliskaya Keslerovo Neftecnala Changyrtash Krasnokamsk Lobanovo Ust' Kachka Subkhankulovo (Toymazy-Bavly area) APmet'yevsk Krotovka Zhirnoye Ostrov Artema Karskoye Saratov (Stepnoye) OUlielda Suleyevo Shkapovo Romashkino (APmet'yevsk area) Novokuybyshevsk (Kuybyshev area) Ufa S-E-C-R-E-T Confirmed Major Length oo Hg ; -5 To? 0 APmet'yevsk Kaltasy Sernyye Vody 13atraki Batraki C? histopolj Kazan Gor'kiy Ufa ,Ufa Tuymazy, Ufa Tuymazy, Ufa Urussu Ufa, Chelyabinsk, Omsk Tatarsk, Novosibirsk Laguri, .Moskarvo Okha ' Zany Urkt Okha, Zaliv Urkt Syzran', Penza, Br3unsk Makhachkala Novorossiysk L'voy t Stryy Kuybyshev Buguruslan Bug uruslan Kuybyshev 1 - ' Kuybyshev Saratov, Ufa 1* Chelyabinsk, Omsk .K0111303101'Sk f Palatka , Odessa Makbachkala Makhachkala t Astrakhan' Gur'yey Astrakhan' Georgiye -Alipskaya Krymskaya Caspian Sea Shore Tentyaksay (Kokan, Kishlak) Molotov M? olotov Molotov Shkapovo A? znakayevo, Naryshevo, Subkhankulovo (Tuyrnazy-Bavly area) Novokuybyslievsk (Kuybyshev area) Stalingrad Apsheronskiy Poluostrov (Apsheron Peninsula) Novorossiysk Trofimovskiy (Nalivnaya) A? Pmet'yevsk Ishimbay/Salavat refining area 140 Novokuybysbevsk (Kuybyshev area) 260 Saratov 359 B? erdyaush, Chelyabinsk, Sineglazovo, Chumlyak, Khokhly, Kurgan, Omsk -175 ; Molotov Chelunagush, Ufa Krotovka Omsk T T? atarsk, Novosibirsk, Irkutsk Novosibirsk * Irkutsk Omsk Pavlodar a Tel al l Unless otherwise specified, the data in this table are derived from tables in the unpublished N shed appen- fajonrgIlh 9974 length, constructing 910 dixes],which give details and complete documentation. Major length, all completed 9,064 Total, all completed 10064 Number of pipelines Total Major length, constructing Major length, all completed Total, all completed. LENGTH (Kilometers) CONFIRMED IN SOVIET AND NON-SOVIET SOURCES Confirmed I Total 883 - - 162 ? - 162 155 155 89 - 89 64 644 ngth Operating -J Tti 0^ .? a, 883 883 32 32 - - 162 162 155 155 89 89 644 * 644 25 1 25? ; 25 .8 8 = 108 108 - 108 108 200 200 ; - 200 200 6 24 24 8 8 6 16 16 - Major Length I -1 bo . ero --= 0 A 883 - 883 - 883 : 883 - : - 64 [ 641 - 64 , 64 - 13 13 13 - 32 32 32 - - 42 42 ; 42 162 - 162 162 : 162 155 - 155 . . 155 , 155 89 89 , 89 , 89 644 - 644 - 644 611 - - - 25 25 25 - 6 6 6 24 24 . 24 8 8 8 6 6 6 - 16 16 16 108 108 - 108 200 - 200 108 - 200 . 200 455 - 455 - 455 455 665 - 665 - 665 7 665 455 ? - 455 - 455 , 455 665 665 - 665 605 709 - 709 ? - 709 709 61 - 61 ? - 61 61 118 ? 118 - 118 118 - 19 19 19 211 167 - 167 - ? 167 ' 167 - 100 - 100 - 100 100 I - 80 - 80 - 80 ' 80 - 15 15 15 40 40 709 709 - 709 709 211 211 - 211 211 - - - 23 23 ? 23 61 ?61 - 61 ? 16 118 - 118 118 118 19 ? 19 19 167 100 80 167 100 80 18 18 7 7 20 20 46 46 40 40 40 - 167 167 100 100 - 80 80 15 15 15 18 18 18 7 7 7 - - ? - 20 20 20 - - - 46 46 40 Not Confirmed; Possible but Doubtful Total 18 18 18 18 - 73 73 73 125 166 166 227 1,332 180 452 577 - 125 577 - 166 :166 166 166 - 166 166 227 - 227 227 - - - - 1,332 1;132 4332 620 800 180 800 - 35 35 ? 35 18 18 125 - 452 166 - - 166 - 227 - 227 - - 227 227 - 14 14 1,332 - - - 180 ; 620 73 577 166 166 227 227 :132 800 130 1,070 1200 10 10 14 14 11 11 - 130 , 63 63 120 120 60 60 26 160 160 1,130 - 1,130 ? - 030 ? 1,130 28 28 , - ? 35 35 - 1,130 600 600 88 88 1070 1 1,200 63 120 60 160 1,130 600 88 r 18 18 18 18 18 18 73 ? 73 18 18 ? 18 - 125 577 - 166 ? 1,66 166 166 227 227 - 227 227 14 14 14 - 1,332 1,332 - 180 ' soo 35 35 35 10 10 10 14 14 14 51 11 11 - 130 ? 1,200 - 63 63 - 120 , 120 60 60 26 26 ; 26 - 160 ? 160 4 4 28 28 28 35 35 35 35 35 35 - - 1,130 1,130 600 600 88 88 - 35 - 22 35 35 22 22 94 110 110 300 74 b Arabic numerals identify separate pipelines shown on the map, Figure 1 (inside back cover). c Fifty kiloineters (kin) or more. d Less than 50 km. e Some of the installation dates given are those for the years of probable completion of construction, some indicate the probable periods of construction, and some indicate the periods sometime within which construction probably was completed. Oil Pipelinepossibly was planned to replace Oil Pipeline Oil Pipeline tended over essentially the arne_wrie and probably was dismant e prsor to 1946 for use ut construction of Oil & _neline Data are given for Oil Pipelinep-Ionly, noting, however, that Oil Pipeline] I is cons ered to be of doubtful existence. a Oil Pipeline [isa continuation of Oil Pipeline the data are shown for the two pipe- lines combined. h Parallel to-all or a part of a pipeline designated by the same number and in integral operation with it. 26471 1.58 This pipeline was apparently completed in 1956 for service from Al'met'yevsk to Chistopor, and its completed length is estimated to be 125 km. - 94 91 94 - 110 - 110 110 - 110 110 110 - 300 300 300 - - 6 6 6 - 74 74 74 - 35 , 35 35 - 16 16 ; 16 - - 140 140 140 - ? 260 - 260 260 - 359 - 359 ?; 359 655 ? 1,130 1,130 446 446 446 90 90 ' ?90 87 87 - 87 2,450 2,450 2450 1,650 ? 1,650 1,650 400 400 400 7,920 13894 304 10,278 ? 18,198 7,920 I 8,830 - r 910 ' 8,830 -!9,064 ; - , 9064 9,064 - , 9,064 ? 304 9368 9,368 39 13 46 52 _ 10 - 4 10 29 -t -29 29 29 131 42 42 - - - 24 24 - 7 - 31 31 15 15 1,666 - r, 538 2,204 1,666 1,666 1,666 538 2,204 10 27 37 - - 10 - 1 1() 10 27 37 - 25 25 25 - 24 24 . 24 - - 7 7 7 - 35 3535 - , 31 31 31 - 22 22 22 - - - 15 15 , 15 94 - 94 - 94 ; 94 110 - ? 110 - 110 110 110 ?110 . - 110 110 300 - 300 - 300 ' 300 6 - - 6 - 74 74 - 74 74 - - 35 35. 35 - - - 16 - 16 16 - 140 - 140 140 ; 140 - 260 - 260 - 260 , 260 - 359_ , 359 359 1 359 - 475 655 , 1,130 475 . 1,130 - - 446 , 446 . -- - ; 446 - 90 90 - ? - 90 - 30 -1 30 800 , - ? 800 250 250 376 376 376 376 -190 490 451 ? - 451 451 451 - - - - 87 87 , - -, 87 - __ __ 2450 2,450 ' - - , 200 - - __ - : 1,650 , 1,650 - : 1,650 - - 400 , 400 , - , - - 400 11,640 7,920 19,560 842 ; 12,482 120,102 5,082 30 , - - . 5,112 910 i 7,920 ; 8,830 ; - ; 910 1 8,830 - 10,730 1, - , 10,730 - . 10,730 '10,730 _ 10,730 I - ' 10,730 ; 842 111,272 111,572 t 43 t; 10 I 49 '. 83 : 89 10 . 3: _10 313,0, it ' - : - 39 40 3799 I 3799 - __ , _ t - - : J I--- i --. n There is other Soviet evidence that a similar line may have ecu completed much earlier, specifically in 1951 as the first underwater petroleum pipeline constructed by the USSR in postwar time. If this is true,it is not improbable that other relatively short undeiwater oil pipelines, existing but not presently identified, were constructed 1950-55 in the Caspian Sea, connecting off-afire crude oil production areas such as Neftyanyye Kamni, Ostrov Zhiloy, and Ostrov Artema with each other and with the Apsheronskiy Poluostrov (Apsheron Peninsula) of the mainland. o Identified las Ufa-Oms0I--1 Reportedly completed for service prior to 1956 from Ufa to Chelyabinsk, estimated completed length of 580 km-Ufa-Berdyaush, 218 km, com- pleted in 1954, and Berdyastah-Ch,elyabinsk, 162 km, completed in 1955. Reportedly completed in 1956 for service front Chelyabinsk to Chumlyak, completed length of 95 ken; the 184 km of trench for the next sector, Chusnlyak-Kurgan, was also reportedly completed in 1956. A Soviet source slated that the portion from Chelyabinsk to Petropavlovsk, 255 km long, was scheduled for comple- tion in the fourth quarter of 1957. See Table 5, footnote I,, p.51, below. 883 -:883 885 - 885 64 + -1 64 13 13 32'; 32 - 42 42 162 ? 162 155 t -1 155 89 89 644 644 - ? 25 25 6 6 24. 24 8 8 6 6 - 16 16 108 108 200 -200 . 439 439 , 709 - 709 4 564 455 665 1 605 56 455 211 ?211 - 23 23 61 ? - 61 .118 118 - 19 19 - 40* 40 167 - 167 100 ? - 100 80 - 80 - 15 15 18 18 - 7 7 20 20 46 46 - 30 30 - 1'8 18 18 18 73 73 - ? 18 18 577 577 166 166 166 166 227 227 227 227 14 1,3:32 ' 1,332 800 - 800 - 35 35 10 * 10 14 14 11 1.200 - - 1,200 63 - , 120 120 60 - 26, 26t 160 - , 160 - 248 28 35 , 35 - ? 35 35 800 - ; 800 1,130 - 1,130 600 1 - 600 88 88 250 250 376 1 - 376 376 376 490 - 490 451 451 451 451 - 25 25 24 24 7, 35 35 31 ; 31 22 ; 22 - 15 ; 15 9-1 - 94 110 - 110 110 - 110 300 - 300 6 74 - 74 - 35. 35 - 16 16 140 -; 140 260 - 260 359 - ; 359 1,130 - , 1,130 -146 - 446 90 - 90 87 - 87 2,450 - 2,450 1,650 - 1,650 400. - 400 24,642 872 ; 20514 - I - -; 411 100 1 Identified in Soviet sources as Truyrnazy-Onssk k Reportedly completed in 1956 for service from Omsk to Tatarsk, completed length of about 180 km. A Soviet source staled that Oil Pipeline I; the -Iwas scheduled for completion in 1957, but another Soviet source stated that only 500 km o line from Omsk was scheduled for completion in the fourth quarter of 1957. However, 300 km of the line from Ornsk reportedly was welded in 1956, and construction work reportedly had reached Barabinsk in September 1956. I Reportedly completed in 1956 for service from Kuybyshev to Syzran', and its completed length is reported to be about 130 km. The Syzran'-Penza sector, estimated to be 580 km long, was reportedly scheduled for completion in 1957. S-E-C-R-E-T Probable Diameter (lnche Date of Probable Type Installation of Service 8 1906 Crude oil, oil products 12 1950-54 Crude oil 10 * Before 1927 Crude oil 8 1910 Crude oil 8 1910 Oil products 12 1940 Crude oil 8 1014 Crude oil 12 1936 Crude oil 10 1940 Crude oil 10 1928 Crude oil, oil products 10 1935 Crude oil 10 1927-36 Crude oil 8 1927-36 Crude oil 6 1927-36 Crude oil 6 1927-36 Crude oil 12 1927-30 Crude oil 8 1911 Crude oil 12 1955 Crude oil 10 1935 Oil products 12 1932 Oil products 10 1944 Oil products 10 1945 Oil products 12 1936 Crude oil 12 1940 Crude oil 8 1930 Crude oil 6 Before 1927 Crude oil 8 to 10 1934 Crude oil 8 1935 Crude oil 12 1942 Crude oil 12 1947 Crude oil 8 1949 Crude oil 8 1947 Crude oil 8 1947 Crude oil 8 1940 Crude oil 8 1943-45 Crude oil 8 1937-10 Crude oil 8 1949-54 Crude oil -1 1941-45 Crude oil 2 1936 Distillate oil products 6 1936 Residual oil products 12 1940 Crude oil 10 1937 Oil products 12 Progress 1956 Crude oil 12 1936 Crude oil 12 1940 Crude oil 12 1947 Crude oil 12 1951 Crude oil 12 1947 Crude oil 20 1955 ' Crude oil 20 to 21 Progress 1956 Oil products 6 to 10 1932 Crude oil 10 1937 Crude oil 6 1947 Crude oil 6 to 8 1917 Crude oil - I 20 t Progress 1956 Oil products 8 j 1940 Crude oil 10 to 16 1949 Oil products 6 , Before 1027 ,t Crude oil 6 Before 1927 ' Crude oil 12 , 1943 Crude oil s 1940 Crude oil 8 1943 Crude oil 20 1947 ' Crude oil 20 1949 ' Crude oil, oil products 1 to 20 19-18-51 Oil products 12 to 14 1948-52 Oil products 12 1952 t Crude oil 8 , 1947 Oil products 10 1950-54 7 Topped crude oil 18 1950-5-1 Crude oil 1,8 1950-5-1 Oil products -- 12 1 1950-5-1 Oil products 12 1950-5-1 Crude oil 12 1950-54 Oil products 5 1913 Crude oil 4 1950-54 Crude oil 20 1950-54 Crude oil 8 1939 Crude oil 8 1950-5-1 Crude oil 12 1955 Crude oil 8 1950-54 Crude oil 15 to 20 1956 Crude oil 15 to 20 1956 Crude oil 20 1956 Crude oil 12 1955-56 Crude oil 12 1956 Crude oil 12 1956 Crude oil 15 1956 Crude oil 12 1956 Crude oil 20 1950-55 Crude oil 15 1950-55 Crude oil 12 1950-55 Crude oil 20 Progress 1956 Oil products 20 Progress 1956 4; Crude oil 12 Progress 1956 Crude oil 12 Progress 1956 Crude oil 20 Progress 1956 Crude oil 20 Progress 1956 Oil products 2 to 16 Progress 1956 , Crude oil npriacsified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X 50X1 50X1 z5OX 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 2 Chronology for Construction of Trunk Oil Pipelines in the USSR Before 1957 Date of Installation of Pipeline in Place and Completed for Initial Operation Extensions Continued Before 1946 1946-50 1951-55 Before 1956 1956 Before 1957 in 1957 Lengths by Inches of Diameter (Kilometers) Length (Kilo- mamil Units Length (Kilo- Latkami Units Length (Kilo- eplmll Units Length (Kilo- 2,1160.1 Malts Length (Kilo- r12:1Etml Units Length (Kilo- aqmli Units Extension (Kilo- meters) Total (Kilo- meters) 4 or Less 6 8 10 12 Mbla Than 12 883 1 883 1 883 1 883 64 1 64 1 64 1 64 162 1 162 1 162 1 162 155 89 1 1 155 89 1 1 155 89 1 1 89 155 644 1 644 1 644 1 644 108 1 108 1 108 1 108 200 1 200 1 200 1 200 709 I 709 1 709 t 709 211 1 211 1 211 211 61 1 61 1 61 1 61 118 1 118 1 u8 1 118 167 1 167 1 167 1 167 100 1 100 1 100 1 loo 80 1 80 1 80 1 ao 73 1 73 1 .73 1 73 166 1 166 1 125 1 125 166 1 1 452 577 125 166 166 1 166 1 166 1 166 227 1 227 1 227 1 227 227 1 227 1 227 1 227 1,332 1 1,332 1 1,332 1 1,332 63 63 1 63 1 63 60 60 1 60 1 60 I60 160 1 I60 1 160 600 1 600 1 600 1 600 94 1 94 1 94 110 1 110 1 110 110 1 110 1 110 200 1 200 1 100 1 300 1 300 74 1 74 1 74 140 1 140 1 140 1 140 260 1 260 1 260 1 260 359 I 359 I 359 I 359 10.91 11 EL 4 7,118 8 1...IL g2 gla 6 8,197 a 1151 Ili 0 121 1,12L 21.1 3,919 2,046 455 1 455 1 455 1 455 665 1 665 1 665 1 665 180 1 180 1 620 Boo 180 130 1 130 1 1,070 1,200 130 120 120 1 120 1 120 1,130 1,130 1 1,130 1 1,130 88 1 88 1 88 1 88 380 380 1 95 1 475 1 655 1,130 475 - 113 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 2 Chronology for Construction of Trunk Oil Pipelines in the USSR Before 1957 (Continued) Date of Installation of Pipeline in Place and Completed for Initial Operation Extensions Continued in 1957 Lengths by Inches of Diameter (Kilometers) Before 1946 1946-50 Length (Kilo- Units 1951-55 Length (Kilo- xl2E2-1/ Units Before 1956 Length (Kilo- EtnaUnits 1956. Before 1957 Length (Kilo- 122L221 Units1,12p121-21 Length (Kilo- 02,,Jual Units length (Kilo- 112.). Units Extension (Kilo- meters) Total (Kilo- me-__tpx_. 4 or Less 6 8 10 12 More Than 12 Lan a 208 a 1,511 g 2,858 6 122 1 lail? 11 2,345 .1,132 2 0 88 .2. La 2,212 2,9111 a 7/a 6 4 828 10 10 622 32 .1.21A 2 1.1.A112 112. 2,797 'i,707 a121 L,J.J. 1.42L ,14172i ,1,215J, 4,602 13 614 4 4,828 10 10,044 27 850 7 10,894 32 2,797 3,707 o o 1,253 1,427 4,227 3,987 13 13 1 13 1 13 . 42 1 42 1 42 1 42 25 1 25 1 25 1 25 6 1 6 1 6 1 6 24 1 24 1 24 1 24 8 1 8 1 8 1 8 6 1 6 1 6 1 6 16 1 16 1 16 1 16 23 1 23 1 23 1 23 19 1 19 1 19 1 19 40 1 40 1 40 1 40 15 1 15 1 15 1 15 18 1 18 1 18 1 18 7 1 7 1 7 1 7 20 1 20 1 20 1 20 46 1 46 1 46 1 46 14 1 14 1 14 1 14 35 35 1 35 1 35 lo 10 1 lo 1 10 141 11 1 14 11 1 1 14 11 1 1 14 II 26 1 26 1 26 1 26 4 1 4 1 4 1 4 28 1 28 1 28 1 28 35 1 35 1 35 1 35 35 1 35 1 35 1 35 25 25 1 25 1 25 24 1 24 1 24 1 24 7 1 7 1 7 1 7 35 35 1 35 1 35 31 1 31 1 3.1. 1 31 22 1 22 1 22 1 22 15 1 15 1 15 1 15 6 1 6 1 6 35 1 35 1 35 16 1 16 1 16 23, g)t_ 6 2,L2. 6 2/i is 24 12 222 I 12.?. 186 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 2 Chronology for Construction of Trunk Oil Pipelines in the USSR Before 1957 (Continued) Date of Installation of Pipeline in Place and Completed for Initial Operation Extensions Lengths by Inches of Diameter (Kilometers) Continued Before 1946 1946-50 1951-55 Before 1956 1956 Before 1957 in 1957 Lebgth Length (Kilo- (Kilo- 221Eal Units 1.322Lta) Units Length (Kilo- gElta) Unitssisle.L..)..s. Length (Kilo- 32 18 18 la 86 ;2. 8,483 Units Length (Kilo- reilsa Units Length (Kilo- EstEal 32 18 18 18 86 842 2,1? Extension Total (Kilo- (Kilo- Uhits 122:_ter.. 4 or Less la 18 42 24 18 42 aa 6 18 18 Z1 200 18 218 EEE 8 10 12 More Than 12 32 1 18 1 18 1 18 1 86 4 21.6_ 22 124 6 L.,3?2. 1E1 21 12 11l-i ,463 14 _2, 16 1 1 1 1 4 IL 62 == lo 12 LI ?.7.2 1122 1,075 1 2. 1 12 _Elfflex_ 1 1 1 1 4 4o 12 12 82. 4 6 88 11 99 32 ,12 ItIl 1,705 18 18 2i 22L 683 1,674 o 12i 4,075 o lla 2,158 Total product oil Total oil Total pipelines Crude oil Product oil Total oil Extensions to 1956 completions, Others under construction Total confirmed Ei Doubtful 1/ Total listed 1 206 6 208 2 1,510 2,924 1,'i29 120 1,825 1122 4,530 2,035 ,528 g Lt 12 ........ 1,211 11,11a L2.,!q12 4,193 construction continued in 1957 fl/ in 1956, construction continued in 1957 12/ 2,797 5,123 2?,402 5,112 25,514 EEEEE EEEEE EEEEE EEEEE c. See Table 1, p. 41, above. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C2R-E-T Table 3 Comparison of Total Lengths of Oil Pipelines in the USSR, 1 January 1957, and in the US, 1 January 1956 Kilometers Oil Pipelines USSR pi 1 January 1957 US 12/ 1 January 1956 2/ Trunk lines for crude oil 9,153 126,485 Gathering lines for crude oil N.A. 118,329 Total lines for crude oil N.A. 244 814 Trunk lines for oil products 3,329 58,613 Total trunk lines 12,1182 185,098 Total oil lines N.A. 303,427 a. Estimates developed in this report. b. Reported statistics. c. Later similar statistics collated on a national basis are not yet available. -47- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Thousand Kilometers 1,000 800 600 400 200 100 80 60 40 20 10 8 6 4 2 .6 .4 .2 Figure 2 TOTAL LENGTH OF OPERATING TRUNK OIL AND GAS PIPELINES* IN THE USSR AND THE US 1945-56 and 1960 Plan in the USSR US Total US Gas US Oil USSR Total .--- --- v ---??-' ....." v v v v v v v v .. ,,...;.? ..- .., ......?.?......;-, v-l...... . , / .., ..- ...-- ", ?... ;, v ,... , . .. ...""- _ __? /.... ..--,--' ...------'. USSR Oil _..---- _,...----- _,...--' USSR Gas .----- ----"" ..7 V ..././:,,,,.., e R aszea to: 7 1 1 1 1 I i i i i I i 1945 '46 '47 '48 '49 1950 '51 '52 '53 25741 12.57 '54 *Trunk pipelines for petroleum oils; transmission pipelines for fuel gases. Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 1955 '56 1960 (Plan) 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 4 Comparison of Diameter Distribution of Trunk Oil Pipelines in the USSR, 1 January 1957, and in the US, 1 January 1956 Type of Pipeline and Diameter USSR 2/ us 12/ 1 January 1957 1 January 1956 Length Length (Inches) (Kilometers) Percent of Total (Kilometers) Percent of Total Pipelines for crude oil 4 or less 24 0.3 7,255 5.7 6 200 2.2 18,687 14.8 8 1,705. 18.6 41,236 32.6 10 991 10.8 21,651 17.1 12 4,075 44.5 ],4,886 11.8 More than 12 2,158 23.6 22,770 18.0 Total 2,151 100.0 126,485 100.0 Pipelines for oil products 4 or less 18 0.5 3,219 5.5 6 18 0.5 14,230 24.3 8 120 3.6 22,840 39.0 10 683 20.5 7,028 12.0 12 455 13.7 7,920 13.5 More than 12 2,035 61.2 3,376 5.7 Total 3,29 100.0 58,611 100.0 Total trunk oil pipelines 4 or less 42 0.3 10,474 5.7 6 218 1.8 32,917 17.8 8 1,825 14.6 64,076 34.6 lo 1,674 13.4 28,679 15.5 12 4,530 36.3 22,806 12.3 More than 12 4,193 33.6 26,146 14.1 Total all diameters 12 482 100.0 185,098 100.0 a. The data are derived from Table 1 (p. 41, above). If the diameter of a pipeline is shown as an odd number in Table 1, the line is grouped in this table with lines having the next higher even number for a diameter. If Table 1 shows two values for the diameter of a line, the line is grouped in this table with lines having the larger value for a diameter. b. Later statistics for the US, collated on a national basis, are not yet available. -49- S-E-C-R-E-T Declassified in Part- Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 5 Planned Trunk Oil Pipelines in the USSR 2../ 1956-60 and 1961-65 Origin Intermediate Points and Terminals Specified in Direc Length h/ (Kilometers) Under Construction in 1956- Still in Planning Stage Completed Construction as of in 1956 Well Advanced Construction Started Early 1957 yes as Projects of the Original Sixth Five Year Plan Total of the Original Sixth Five Year Plan (1956-60) Total of the Original Seventh Five Year Plan (1961-65) Probable Diameter di (Inches) Probable Type of Service AI'met'yevek Omsk Kuybyshev Ufa Al'met'yevsk Omsk Novosibirsk Tuymasy Cor'kiy Gor'kiy Ryazan' Ishimbay Chistopol', Kazan', Gor'kiy Tatarsk, Novosibirsk Syzran', Penza, Bryansk Chelyabinsk, Chumlyak, Kurgan, Omsk Molotov Tatarsk, Novosibirsk, Irkutsk Irkutsk Ufa, Chelyabinsk, Omsk Yaroslavl' Ryazan' Moscow Orsk 577 800 1,200 1,130 446 dentified in Later Soviet Sources as Projects o 2,450 1,650 1,350 350 350 250 310 the Original Sixth Five Year Plan 577 800 1,200 1,130 446 2,450 1,650 1,350 350 350 250 310 12 Crude oil ei 20 Oil products E/ 20 Oil products si 14 to 20 Oil products hi 14 to 20 Crude oil 1/ 20 Crude oil 1/ 20 Oil products 28 Crude oil ki Crude oil Crude oil Oil products Oil products ki Subkhankulovo (Tuymasy-Bavly Al'met'yevsk Krotovka Zhirnoye Ostrov Artema Khrskoye Saratov (Stepnoye) Oilfields Suleyevo Kaltasy Sernyye Vody Omsk Dryansk Bryansk Kremenchug Saratov Tikhoretsk NeftyanyyeKamni Mukhanovo (Krotovka area) Al'met'yevsk area Dolina area) .Shkapovo Asnakayevo, Subkhankulovo (Tuymazy-Bavly area) Novokuybyshevsk (Kuybyshev area) Stalingrad Apsheronskiy Poluostrov (Apsheron Peninsula) Novorossiysk Trofimovskiy (NalivnnYa) Al'met'yevsk Chekmagush,Ufa Krotavka Pavlcdar Polotsk Kremenchug Odessa Voronezh Thapse Ostrov Zhiloy, Apsheron Peninsula Kuybyshev area Kuybyshev area Drogobych Irkutsk Amurskaya Oblast Total Amurskaya Oblast ri Khabarovskiy Kray pi 94 110 110 300 6 74 35 16 Identified in Soviet Sources as Projects o lkl 90 87 94 110 110 303 6 74 35 16 90 87 400 400 500 530 409 530 230 40 90 90 260 260 76 76 500 530 1409 530 230 40 he Original Seventh Five Year Plan 15 to 20 Crude oil 15 to 20 Crude oil 20 Crude oil 12 Crude oil li 12 Crude oil Ti 12 Crude oil 15 Crude oil 12 Crude oil 12 Crude oil pi 12 Crude oil 2/ 12 to 16 Crude oil pi Oil products Oil products Oil products Oil products Crude oil 16 Crude oil ki pi Crude oil Crude oil si Crude oil ki 11,33a 4_621 5,275 14,850 2,500 700 Crude oil Crude oil c. The sequence of Oil Pipeline numbers is applied in Table 1 (p. 41, above) and on the map, Figure 1 (inside back cover) and has been developed for geographical grouping. The sequence of Planned Oil Pipelines is here applied for coordina- tion in Table 5. Table 1 has been developed for trunk oil pipelines completed or under ronztruction as of 1 January 1957 and includes the 18 lines in Table tin are designated by I specifically Planned Pipe- lines Table 5 lists 2oi .t .'lines as .ro ects of the original Sixth Five Year Plan, shown on the map, Figure 1 as Oil Pipelines appear o ave een still in the planning stage in 1956. A. In accordance with discussion in the text of this report (p. 17, above), 12 inches is considered to be the probable minimum diameter in the Soviet trunk oil pipelines that comprise projects planned or actue.11y constructed since 1955. In the longer lines in this category the diameters are probably 20 inches or more. The diameters of such lines, how- ever, are not generally specified in the available Soviet sources, and the individual diameters have not been estimated except for the 18 lines that were completed or under construction in 1956 and for Planned Oil Pipelines Nos. 8 and 29, both of which have diameters specified in Soviet sources. As shown in Table 1 (p. 41, above), with completion dates prior to 1956, Oil Pipelines (Thymasy-Omskl F I correlate directly with the 1 d s, and there is Soviet source specification of 20 inches as the diameter of Oil Pipeline cam 1 ted sagest single oil pipeline known to have been installed before 11.5 in the USSR. Oil Pipeline l I I will have a diameter of 28 inches. e. This pipe me apparently was completed in 1956 for service from Al'met'yevsk to Chistopol', and its completed length 1, estimated to be 125 km. The total length installed in place in 1956 is reported to be 200 km. that the line was scheduled for completion in the third quarter of 1957. f. This pipeline reporte as c et ported to be about 180 km. for completion in 19572 ted length is re- was scheduled ,:,111,5, 500 km of the line from Omsk were scheduled for - 51 - completion in the fourth quarter of 1957. However, 300 km of the line from Omsk reportedly were welded in 1956; and construction work reportedly had reached Barabinsk in September 1956, g. This pipeline reportedly was completed in 1956 for service from Kuybyshev to Sym.an', and its completed length is reported to be about 130 km. The Sysran'-Penza sector, with an estimated length of 380 km, reportedly was scheduled for completion in 1957. h. This pipeline (Ufa-OMsk reportedly was completed for service before 1956 from Ufa to Chelyabinsk, and its completed length is estimated to be 380 he divided as follows: UfaBerdyaush, 218 km, completed in 1954, and Berdyaush- Chelyabinsk, 162 km, completed in 1955. It was also reported that 95 km were completed in 1956 for service from Chelyabinsk to Chumlyak, and the 184 km of trench for the next portion, Chumlyak-KUrgan, also reportedly were completed in 1956. A Soviet source states that the portion from Chelyabinsk to Petropavlovsk, 253 in, was scheduled for completion in the fourth quarter of .1957. See Table 1, footnote o, p. 41, above. i. The reported length of the section of this pipeline installed in 1956 is 250 km. Construction advanced 230'10m north- ward from Al'met'yevsk to tie in with construction advancing 20 km southward from Molotov. The entire pipeline reportedly was scheduled for completion in 1957. 3. this trunk line will transport crude oil for charge to two new refineries to be con- structed during the original Sixth Five Year Plan, at Bogotol in Kiasnoyarskiy Kray and at Angarsk near Irkutak. k. Soviet sources state that construction is scheduled to start in 1957 on Planned Oil_fipelines Nos. 8, 29, and 32 and in 1958 on Planned Oil Pipeline They also state that Planned Oil 21 I land presumably also Planned Oil Pipeline will be completed in 1958. Planned Oil Pipeline is designated as Tuymasy-Omsk roe oellvery if crude oil to Stalingrad may be for transshipment via river barges on the Volga. It is possible, however, that the crude oil may be for refining in Stalingrad. The status of possible refining facilities in Stalin- grad is still uncertain. Reportedly as of early 1957, a crude oil refinery was under construction in Stalingrad and was to be operating in part in the third quarter of 1957. Refinery construction in that city has been indicated in the past, and unconfirmed secondary reports have identified existing refineries in the city. m. These pipelines are underwater pipelines connecting with off-shore crude oil production in the Caspian Sea. n. This pipeline reportedly was completed in considerable part in 1956. o. Thirty-five km of this pipeline reportedly were completed in 1956. the line was scheduled for completion in the second quarter of 1957. p. On the basis of Soviet reports it appears that this oil pipeline is projected as a branch from Oil Pipeline (Omsk-Irkutsk) from a point between Omsk and Barabinsk. q. Second trunk crude oil pipeline to connect the two areas t first such line being Oil Pipeline r. On the basis of Soviet reports this terminal probably wilhe be at a new natural crude oil refinerYltalbelconatructed in the Blagoveshchensk-Raychlkhinsk area of Amurskaya Oblast, s. This terminal probably will be at the existing natural crude oil refinery in Khabarovsk. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 ? . cnvii 5nyi c50X1 's60X11 50X't:11 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 6 Estimated Annual Traffic in Nongas Petroleum Stock in the USSR 1940-55 and 1960 Plan Type of Carrier Oil Pipelines Internal Waterway Maritime Railroad Total Year Amount (Billion Ton-Kilometers) Percent Amount (Billion Ton-Kilometers) Percent Amount (Billion Ton-Kilometers) Percent Amount (Billion Ton-Kilometers) Percent Amount (Billion Ton-Kilometers) Percent 1940 3.8 5.7 12.1 18.3 13.7 20.8 36.4 55.2 66.0 100.0 1941 3.9 5.8 12.0 17.7 14.o 20.7 37.8 55.8 67.7 100.0 1942 2.7 5.8 8.0 17.1 9.4 20.2 26.5 56.9 46.6 100.0 1943 2.1 6.o 5.9 16.7 7.0 19.9 20.2 57.4 35.2 100.0 1944 2.2 5.9 6.0 16.1 7.4 19.8 21.7 58.2 37.3 100.0 1945 2.4 5.9 6.3 15.6 7.9 19.5 23.9 59.0 40.5 100.0 1946 2.7 6.o 6.8 15.1 10.5 23.3 25.1 55.6 45.1 100.0 1947 3.3 6.1 7.9 14.6 14.7 27.1 28.3 52.2 54.2 100.0 1948 3.7 6.1 8.6 14.2 13.7 22.5 34.7 57.2 6o.7 100.0 1949 4.3 6.2 9.5 13.7 12.3 17.8 43.2 62.3 69.3 100.0 1950 4.9 6.2 10.4 13.2 11.4 14.5 52.0 66.1 78.7 100.0 1951 5.5 6.4 11.2 13.0 17.3 20.0 52.4 60.6 86.4 100.0 1952 6.3 6.6 12.0 12.6 15.2 16.0 61.6 64.8 95.1 100.0 1953 7.1 6.8 12.8 12.3 12.3 11.8 71.9 69.1 104.1 1150.0 1954 10.1 8.o 15.8 12.6 15.2 12.1 84.5 67.3 125.6 100.0 1955 13.7 y 9.7 13.2 9.3 12.7 9.0 101.6 72.0 141.2 100.0 1960 83.0 25.0 51.3 hi 15.5 y 51.3 12/ 15.5 ti 146.4 44.1 332.0 100.0 the volume figure for oil pipeline traffic in 1955 as 14.7 billion ton-kilometers, but the figure of 13.7 billion ton-kilometers, is considered to be more realistic, since it correlates with otherl evidence. the volume figure for oil pipeline traffic in 1)b was 20.5 billion ton-kilometers, and the planned volume figure for 195/ was 27.b billion ton-kilometers. b. The traffic planned for internal waterway and maritime carriers combined is known to be 102.6 billion ton-kilometers. The amounts shown here are simple averages and do not imply that the traffic necessarily will be shared equally by the two types of carriers. - 53 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 nv4 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Billion Metric Ton-Kilometers 600 500 400 300 200 100 0 Figure 350X1 TRANSPORT OF NONGAS PETROLEUM, BY TYPE OF CARRIER, IN THE USSR 1940-55 and 1960 Plan i /- 1,/,_ Total f?-' .., Waterborne /,'' Transport \/:,,),?,.:). ., .., J '0'0.'J'' ?;-'0 , 0 01 ,i 4,;,,, Maritime / ,.../ \ ..).,, .J J ,? 0 J ?-? ) .f' j?V / 0 / Internal .., -/.//- Waterway / , \ \ Railroad mmossiii . --' . . . '-- ' Pipeline , . 1940 25740 12-57 1945 1950 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 1955 1960 (Ple?s) 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Percent 100 90 80 70 60 50 40 30 20 10 0 Figure 4 50X1 PERCENTAGE OF TRANSPORT OF NONGAS PETROLEUM, BY TYPE OF CARRIER, IN THE USSR 1940-55 and 1960 Plan ,,,, ; , , //,/ / //,/,? ? ' //, ,/, i / . 1' / /V/ //// ' /// , 7 ? / , \ \* / / \ ' ///,/ / / \ , , \?. , , Transport , , , / / Internal / Waterway ..., Railroad , , , , , , , , , , , , , , , , , i I I Pipeline I I I I 1 1 1 1 1940 25739 12-57 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 1945 1950 1955 1960 (Plan) 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 7 Total Freight Traffic in the USSR, by Type of Carrier 2/ Selected Years, 1913-56, and 1960 Plan Type of Carrier Internal Waterway Maritime Total Waterway Railroad Highway Oil Pipeline Total Year Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total Amount (Billion Ton- Kilometers) Percent of Total 1913 12 1928 1940 1950 1954 19552/ 1956 1960 1/ 28.59 15.9 35.89 45.93 6.5 67.44 70.2 121 24.9 13.3 7.4 6.4 6.1 5.8 5.4 6.7 19.78 9.3 23.79 39.72 56.6 68.94 82.4 143 17.3 7.8 4.9 5.6 5.5 5.9 6.3 7.9 48.37 25.2 59.68 85.65 119.0 136:38 152.6 264 42.2 21.1 12.3 12.0 11.6 11.7 11.7 14.6 65.7 93.4 415.0 602.3 856.8 970,92 1,079.1 1,375 57.4 78.2 85.1 84.5 2/ 83.7 83.42/ 83.0 76.1 0.1 0.2 8.9 20.1 37.52 42.5 47.5 85 0.1 0.20.64 1.8 2.8 2./ 3.7 3.72/ 3.7 4.7 0.31 3.76 4.85 10.07 13.7 20.5 83 0.3 0.5 0.8 0.7 1.0 1.2 1.6 4.6 114.5 119.4 487.4 713.0 1,023.4 1,163.52/ 1,299.7 1,807 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 a. I rounded figures are given for some but not all of the absolute values shown in Table 7. Conforming within limits of con- ventional rounding to the various absolute values, to the ratios of absolute values, and to the percentages of totals, all as given ml a manner to cause all such values, ratios, and percentages to show minimum discrepancy with respect to one another, certain absolute values are introduced into the table, and certain of the rounded absolute values are expanded to more significant figures. The totals of ton-kilometers are always rounded as shown in the table. Negligibly different rounded figures are shown for most of the data b. Within the borders of the USSR prevailing prior to 17 September . or these data also gives the following values in billion ton-kilometers for total freight traffic in 1913, reckoned within the borders of the USSR prevailing as of 1956: internalwaterway, 28.9; maritime, 20.3; and railroad, 76.4. c. slightly different values for these percentages as follows: railroads, 84.6 for 1950 and 83.7 for 1955; highway, 2.7 for 1950 and 3.4 for 1955. d. rounded figures as shown below for total freight traffic in the USSR; these figures cover 1955 operations and the planned percentage breakdown for 1960. Some of the figures differ somewhat from those shown in Table 7, and the same series of slightly differing percentages for 1960 are also mentioned in footnote c, above: Type of Carrier Traffic Quantity in 1955 (Billion Ton-Kilometers) Percent 1955 1960 Waterborne transport Internal waterway 67.4 5.7 6.7 Maritime 68.9 6.0 7.9 Total waterborne transport 136.3, 11.7 14.6 Railroad 970.9 83.4 76.4 Highway 42.5 3.7 4.4 Oil pipeline 13.9 1.2 4.6 Total 1,163.6 100.0 100.0 - 55 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 FtIV1 50X1 50X1 -50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 7 Total Freight Traffic in the USSR, by Type of Carrier Selected Years, 1913-56, and 1960 Plan (Continued) -the above figures also gives values for each type of carrier, where each such value is the ratio of the volume planned for 1960 to the volume developed in 1955: for internal waterway traffic, 1.8; for maritime traffic, 2.1; for railroad traffic, 1.42; for highway traffic, 2.02; for oil pipeline traffic, 6; and for all traffic, 1.55. Except for highway traffic the same ratios for 1960 over 1955 are given in ITable 7 and are correlated in the volume values derived for the 1960 Plan as shown in Table 7. The highway traffic ratio of 2.02 is replaced by a rounded factor of 2 in Table 7; the ratio of 2.02 is numerically incom- patible with the percentages and other ratios correlated with the 2..02 in the other Soviet source. Within limits of conventional rounding, the figure given in 1 Ithe 1960 total volume of freight is 1.55 t 0.0049 times the 1955 total. Using also the upper and lower limits of the figures given Ifor the per- cent of total freight that is or will be transported by highway carrier in the 2 years (1955 . 3.7 percent and 1960 . 4.4 percent? the ratio of the volume in 1960 to that of the volume in 1955 will have to fall between 1.79 and 1.90. The figure 2.02 does not fall within this range. found to be internally inconsistent, and the 1955 and 1960 data of Table 7 are assumed to be the more nearly realistic. e. In the European USSR, 706.8 billion ton-kilometers; in the Asiatic USSR, 456.7 billion ton-kilometers. -56- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 ? 50X1 c (Iv 1 50X1 If\ 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 8 Transportation Balances in Nongas Petroleum Stock in the USSR and the US by Type of Carrier 1950, 1955, and 1960 Plan in the USSR and 1949 and 1955 in the US Mass of Transfer2../* Traffic Average Distance Volume Amount Percent of Transfer (Billion Ton- Percent Country, Year, and Carrier (Million Metric Tons) of Total (Kilometers) Kilometers) of Total USSR 1950 Oil pipeline 15.3 18.3 318 4.9 6.2 Internal waterway 12.3 14.7 846 10.4 13.2 Maritime 12.8 15.3 891 11.4 14.5 Railroad 43.2 51.7 1,205 52.0 66.1 Total or average 83.6 100.0 941 18.7 loo.0 1955 Oil pipeline 50.7 32.0 270 13.7 9.7 Internal waterway 13.9 8.8 950 13.2 9.3 Maritime 16.1 10.2 789 12.7 9.0 Railroad 77.6 49.0 1,309 101.6 72.0 Total or average 158.3. 100.0 892 141.2 100.0 1960 Waterborne transport Internal waterway 17.0 5.6 N.A. N.A. N.A. Maritime 24.2 8.0 N.A. N.A. N.A. Total waterborne transport 41.2 13.6 2,490 102.6 30,9 Oil pipeline 127.7 42.0 650 83.0 25.0 Railroad 135.1 44.4 1,084 146.4 44.1 Total or average 304.0 100.0 1,092 312.0 100.0 * Footnotes for Table 8 follow on p. 58. - 57 _ S -E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part- Sanitized Copy Approved forRelease2013/09/12 : CIA-RDP79R01141A001000140002-2 Table 8 Transportation Balances in Nongas Petroleum Stock in the USSR and the US by Type of Carrier 1950, 1955, and 1960 Plan in the USSR and 1949 and 1955 in the US (Continued) Mass of Transfer 21 Traffic Average Distance Volume Amount Percent of Transfer (Billion Ton- Percent Country, Year, and Carrier (Million Metric Tons) of Total (Kilometers) Kilometers) of Total US 1949 Oil pipeline 236.8 36.4 709 167-8 45.o Waterway 256.0 39.3 654 167.5 44.9 Railroad 43.7 6.7 651 28.5 7.6 Highway 12/ 114.5 17.6 80 9.2 2.5 Total or average 651.0 loom 573 373.0 loom 1955 Oil pipeline 340.9 37.3 751 256.0 44.6 Waterway 356.0 39.0 776 276.4 48.2 Railroad 38.0 4.2 701 26.7 4.7 Highway 178.1 19.5 80 14.2 2.5 Total or average 913.0 100.0 628 273.1 100.0 a. represent the total tonnage originated in the USSR (for further explanation of -- the meaning of the mass of transfer, see Table 9, footnote a, p. 60, below). US figures represent the tonnage of net delivery in the US. The data for the US are developed by analysis of published statistics. Referring to the ton-kilometer values shown for the US traffic, the values for oil pipe- line and railroad may be derived more or less directly, whereas the values for waterway and highway require independent estimates of certain statistical details that are not published. The data as shown in Table 8, however, are believed to represent correctly orders of magnitude for the US and the USSR alike. b. The principal highway carriers are motor tank-trucks, the highway transportation of nongas petroleum stock in the USSR has been insignificant, at least before the original Sixth Five Year Plan. -58- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Billion Metric Ton-Kilometers 600 500 400 300 200 100 0 Figure 5 50X1 TRANSPORT OF NONGAS PETROLEUM, BY TYPE OF CARRIER, IN THE US 1940-55 _ Highway :::.,....: ;?:' , ','? _ , ? Total Waterborne Transport ?,- , , . ?J J , ???? r' U 1 , 3 , ,,0?: t., 3 _ , 3 J , D ? t Railroad ' - _ 1 1 i i 1 Pipeline 1 I I I I I 1 1940 26470 12-57 1945 1950 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 1955 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 9 Transportation Balances in Total Freight in the USSR by Type of Carrier 1940, 1950, 1955-56, and 1960 Plan Year and Carrier Mass of Transfer W. Average Distance of Transfer .3/ (Kilometers Traffic Amount (Million Metric Tons) Percent of Total Volume (Billion Ton-Kilometers) Percent of Total 1940 Waterborne transport Internal waterway Maritime Total water- 72.9 31.2 4.7 2.0 492 763 35.89 23.79 6.4 5.6 borne transport 104.1 6.7 573 59.68 12.0 Oil pipeline 7.9 0.5 476 3.76 0.7 Railroad ' 592.6 37.9 700 415.0 84.5 Highway 858.6 54.9 10.4 8.9 2.8 Total or average L.L3 100.0 312 487.4 100.0 1950 Waterborne transport Internal waterway 86.3 3.0 532 45.93 6.4 Maritime 33.7 1.2 1,178 39.72 5.6 Total water- borne transport 120.0 4.2 714 85.65 12.0 Oil pipeline 15.3 0.5 318 4.85 0.7 Railroad 834.2 29.5 722 602.3 84.5 Highway 1,861.1 65.8 10.8 20.1 2.8 Total or average 2,830.6 100.0. 252 112a 100.0 1955 Waterborne transport Internal waterway 131.0 2.5 515 67.44 5.8 Maritime 53.5 1.0 1)288 68.94 5.9 Total water- borne transport 184.5 Li 739 136.38 11.7 Oil pipeline 50.7 0.9 270 13.7 1.2 Railroad 1,267.5 23.8 766 970.92 83.4 Highway 3,828.8 71.8 11.1 42.5 3.7 Total or average 5,331.5 100.0 218 1,163.5 100,0 Footnote for Table 9 follows on p. 60. - 59 - S -E -C -R -E -T - _ Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 9 Transportation Balances in Total Freight in the USSR by Type of Carrier 1940, 1950, 1955-56, and 1960 Plan (Continued) Mass of Transfer e Traffic Average Distance Amount of Transferpy./ Volume Year and Carrier (Million Metric Tons) Percent of Total (Kilometers) (Billion Ton-Kilometers) Percent of Total 1956 Waterborne transport Internal waterway 146.6 2.5 479 70.2 5.4 Maritime 57.7 1.0 1,428 82.4 6.3 Total water- borne transport Eati 3,/, 747 .152.A. 11.7 Oil pipeline 65.3 1.1 314 20.5 1.6 Railroad 10371.0 23.6 787 1,079.1 83.0 Highway 4,166.7 71.8 11.4 47.5 3.7 Total or average 9,807.9 100.0 224 1.299.7 100.0 1960 Waterborne transport Internal waterway 198.7 2.2 609 121 6.7 Maritime 79.4 0.9 1,800 143 7.9 Total water- borne transport 278.1 32.1 949 264 14.6 Oil pipeline 127.7 1.4 650 83 4.6 Railroad 1,833.3 MJ 750 1,375 76.1 Highway 6,640.6 74.8 12.8 85 4.7 Total or average 8,879.7 100.0 203 lii.10 100.0 a. The mass of transfer appears to be tons originated The originated tonnage usually involves duplicate accounting of the actual material carried when there is transshipment by different types of carriers and sometimes by different ? systems comprising the same type of carrier. The duplicate accounting may be of considerable significance in the national total for different types of carriers and also may develop a significant factor in the total for a given type of carrier, especially for the highway type. The average distance of transfer is then a ratio that is an apparent average only. The originated tonnage Is the actual transferred tonnage (tota), tonnage of net delivery) multiplied by a duplicate accounting factor that is greater than unity'. The actual average length of haul of the actual transferred tonnage is the correlated apparent average distance of transfer multiplied by the same factor. The actual average length Of haul is the ratio of the total ton-kilometers to the total mass of transfer when the latter is corrected to represent total tonnage of - 60 - S -E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 9 Transportation Balances in Total Freight in the USSR by Type of Carrier 1940, 1950, 1955-56, and 1960 Plan (Continued) net delivery. In the transportation of nongas petroleum stock, however, the duplicate accounting factors probably have only nominal effect in the Soviet data for a given type of carrier, although the effect may be significant in the national total fOr different types of carriers. Negligibly different rounded figures are shown for some of the mass transfer data Differences of some significance but still, very small are present in the following datal Mass of Transfer (Million Metric Tons) Transport Facility 1950 1955 Waterborne transport Internal waterway 91.5 139.1 Maritime 33.7 53.7 Total waterborne transport 145,1 12L1 Oil pipeline 15.3 51.7 Railroad 834.3 1,267.0 Highway 1,859.2 3,730.0 Total 2,874.0 5,241.5 - 61 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 ?J?,.//? I Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 10 Comparison of Railroad Transport of Nongas Petroleum Stock in the USSR and the US 1950, 1954-55, and 1960 Plan in the USSR and 1950-53 in the US Traffic Volume (Billion Ton-Kilometers) Percent of Total Nongas Other Nongas Other Country Year Petroleum Stock Material Total Petroleum Stock Material Total USSR 1950 52.0 550.3 602.3 8.6 91.4 100.0 1954 84.5 772.3 856.8 9.9 90.1 100.0 1955 101.6 869.3 970.9 10.5 89.5 100.0 1960 146.4 1,228.6 1,375.0 10.6 89.4 100.0 US 21 1950 30.0 831.9 861.9 3.5 96.5 100.0 1951 31.7 921.7 953.4 3.3 96.7 100.0 1952 30.5 878.0 908.5 3.4 96.6 100.0 1953 29.5 904.8 934.3 3.2 96.8 100.0 a. For intercity service, thus excluding the relatively small intracity nonpassenger traffic on railroads, the data for railroads in the US, referring to total nonpassen- ger traffic (freight, express, and mail), are as follows: Traffic Year (Billion Ton-Kilometers) 1950 871.51 1951 956.79 1952 910.29 -63- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 11 Output of Nongas Petroleum Stock and Traffic in Oil Pipelines in the USSR and the US 1940, 1950, 1952, 1955, and 1960 Plan in the upsR and 1940, 1949-50, 1952, and 1955 in the US Country and Year Indigenous Output of Nongas Petroleum Stock (Million Metric Tons) Traffic Crude Oil Nongas Products a/ Total Volume (Billion Ton-Kilometers) Use , Index ?V USSR 1940 31.1 26.7 57.8 3.8 66 1950 37.9 33.4 71.3 4.9 69 1952 47.3 41.9 89.2 6.3 71 1955 70.8 62.9 133.7 13.7 102 1960 135.0 119.6 254.6 83.0 326 US 1940 182.4 162.1 344.5 86.5 251 1949 248.3 247.3 495.6 167.8 339 1950 266.0 266.3 532.3 188.6 354 1952 308.7 330.3 639.0 230.0 360 1955 334.9 370.8 705.7 256.0 363 a. Gross output at processing units, derived from crude oil, from natural gas liquids, and from synthetic oil processing. The crude petroleum charged to this processing is developed into the gross output of the nongas products, plus gas and waste. Of the gross output of nongas products, a portion is consumed in petroleum processing and in other phases of the petroleum industry. b. The index, given in terms of kilometers and representing a theoretical length, is derived by dividing volume of traffic by total output of stock. Table 12 Comparison of Prewar and Postwar Net Delivery of Crude Oil to Refineries in the USSR, 1939 and 1954, and in the US, 1936 and 1954 Percent of Total Tonnage Carrier USSR US 1939 1954 1936 1954 Oil pipeline Waterway Railroad and truck Total 11.4 45.9 42.7 100.0 75.0 25.0 100.0 71.3 26.6 2.1 100.0 74.6 23.9 1.5 100.0 -65- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: .01A-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 13 Principal Transmission Gas Pipelines in the USSR Completed for Operation Before 1 January 1957 21* (mtel=teigis) Oriain Intermediate Points and Terminals Major Pipe- linec Lesser Pipe- lines Minor Pipe- lines Total Pipe- lines Diameter hi (Inchea) Date of Installation 50X1 Daehava Ternopol', Berdichev, Kiev, Bryansk/Be- chitsa, Ealuga, Moscow - 1,320 1,320 20 1946-51 ('/ Rhitomir Vinnitsa 42 40 42 40 1955E/ ? 1955 50X1 Pereyaslav-Khmelhaitskiy 75 75- 1955 Chernigov 18 18 1956 Ugandan DashavE7 52 52 1955-56d Ugersko (Dashava area) L'vov Dashava L'vov 70 70 70 70 1951-55_,/ 1930 h 50X1 Dashava L'vov 70 70 1930-40 hi Dashava 10 10 1940 hi Stryy Borislav Drogobych 25 25 1947-5o Radchenkov (Gogolevo) Mirgorod 60 60 1956 Radchenkov (Gogolevo) Poltava 90 90 1956 Shebelinka Kbar'kov 74 74 28 19569/ Saratov Tambov, Ryazan', Moscow 843 845 12 1944-46 1/ Ryazan Priokskiy Tambov Morshansk 15 15 1956 97 5 97 5 1951-55 A/ t/ 1955 50X1 Kolomna Yelshenka Yelshanka Saratov Saratov 17 17 17 17 16 to 18 16 to 18 1942 1942-43/ 50X1 let' -Kurcloann Snnatov-tnyanevka 30 30 194409/ Novostepanovka, Poklavistnevo, Kuybyeluv 166 166 10 to 14 1943 50X1 Novostepanovka, Pokhvistnevo, Kuybyshev 166 166 10 to 14 1946-51 4/ . F." for Table 13 follow on p. 69. ? 67 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release.2013/09/12 : CIA-RDP79R01141A001000140002-2 Table 13 Principal Transmission Gas Pipelines in the USSR Completed for Operation Before 1 January 1957 2../ (Continued) Gas Pipeline Number pi Planned Gas Ke Number pipeline Number Origin Sultangulovo Buguruslan Yablonovo Zhigulevsk Minibayevo Minibayevo Oktyabr'skiy Archeda Rostov Akhtyrskaya (Il'skiy area) Anastasiyevka (Il'skiy area) Pravoberezhnoye Malgobek Malgobek Izberbash Debit-tog oilfield yushnyy Alamyshik oilfield Andishan oilfield Andishan oilfield Palvantash oilfield Changyrtash oilfield Yarino (Kama River) Length 2/ (Kilometers) Intermediate Points and Terminals Major Pipe- lines Lesser Pipe- lines Minor Pipe- lines Total Pipe- lines Diameter 8/ (Inches) Date of Inetallation 2/ Novostepanovka, Pokhvistnevo 19 19 1947 Asekeyevo 10 10 1948 Kuybyshev 32 32 6 to 12 19459/ Zol'noye (Zhoinoya) 25 25 1955 1/ Kazan' 260 260 12 1954 Tuban -Kul' 100 100 10 1954 Tuban-Kul', Ufa/Chernikovsk 164 164 12 1948-51 9/ Frolovo, Stalingrad 127 127 12 1953 Stavropol', Rostov, Voroehilovgrad, 1,300 1,300 28 1955-56 9/ Voronezh, Tula, Moscow Taganrog 78 78 1956 ..?./ Krasnodar 80 80 1953 Novorossiysk 80 80 1956 Groznyy 26 26 10 1946 Gro.yy 72 72 10 1945 Ordshonikidze(Esaudzhikau) 80 80 1951-55 Makbachkala 65 65 10 1940 9j Baku/Apsheron area (14 pipelines) 150 150 10 to 16 Before 19462/ Karadag, Baku 75 75 1951-55 r Belyy Gorod (Shaumyanovskiy District, Baku) 50 50 1956 Vyshka, Nebit-Dag 30 30 1951 Crunch ?Cesar Andishan 7 14 7 14 5 1940-46 1945 Andishan 10 lo 1948 Leninsk Kochkor-Ata 5 7 5 7 1947 1956 Molotov 27 27 1956 -68- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 - - Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 13 Principal Transmission Gas Pipelines in the USSR Completed for Operation Before 1 January 1957 pi (Continued) For transmission in Okha area, Sakhalin Total natural ga Manufactured gas pipelines Shale gas pipelines Producer gas pipeline Coke oven gas Pipelines Refinery gas pipeline Total manufactured gas Total fuel gas Length 2/ (Kilometers) Major Lesser Minor Total Pipe- Pipe- Pipe- Pipe- Diameter. i/ Date Origin Intermediate Points and Terminals lines lines lines lines (Inches of Installation e/ Err' Oxernyy 27 27 1956 Okha Rayon oilfield Populated area, Okha Rayon 4 4 1956 112.1 1,238 812 L2,91 Kokhtla-Yarve Leningrad (Pipeline No. 1) 203 203 20 1948 Kokhtla-Yarve Tallinn 200 200 20 1953 Slantsy Junction with Gas Pipeline No. 52 53 53 20 1951-55 Shchekino Tula, Moscow 200 200 20 1951-55 R/ Bagley Bagley Dneprod.mhimk Dnepropetrovsk Baku (Novobakinskiy refinery) Sumgait (synthetic alcohol and rubber plant) 10 10 40 4o 35 35 .6.91 21 ?1 aais. 1..291 al Lail 1955 1956 1951-55 t/ as shown in Table 15 (p. 73, below), which e 3 as pipelines that had lengths completed in 1956. The Gas Pipeline and Planned Gas Pipeline number sequences, distinguished by color, are used to identify traces of the gas pipelines shown on the map, Figure 6 (inside hack cover). c. Lengths are based either onl lor on map measurements and probable deviation factors. In this table a major pipeline has a length of at least 100 km, a lesser pipeline has a length of at least 50 no but less than 100 km, and a minor pipeline has a length of less than 50 km. d. The diameter is given only where there is reasonably firm basis for the figure 1 I e. In some instances the time periods shown are the probable periods of active construction and effective completion. In other instances the actual dates of construction and completion are not known, and the time periods shown are those during which there probably was construction and completion. f. Ithe lead sector of One Pipeliner----1(Dashava-Kiev), 510 km, was completed for operation in 1946-48, and the remaining sector (Kiev-Moscow), 810 km, was completed for oper- I ation in 1948-51. It is probable however, that the installatiOn-mr-the pipeline in place in that remaipleg_sector was effectively completed in 1950. 1 la new compressor station was completed on San pipeline rin 1955 at Berdichev, servicing also the branch line, Gas Pipeline g' I it appears that the Dashava-Stanislav sector, 47 km, was completed or operation in 1955 and that the lead sector (Ugersko-Dashava), 5 km, connecting with the stepout development at Ugersxo, was installed in 1956. h. Gas Pipelineal Iconstitute pipelines reportedly constructed in the Soviet Carpathian area which was in Poland at the time of construction. Gas Pipelines probably existed as oPerating lines in 1957,1? ?omprising 2 parallels connecting Dashava with L'vov. 1 wes a third line constructed (1951.-55) be- tween the Dashava area al? - .-.. Iwas completed for operation northward to Khar'kov, 74 km, in the first half of 1956 and that the construction of Planned Gas Pipelinel Otould be contLieu nortnwars. at an accelerated rate in 1957, with completion in 1958 apparently planned. ',I. The 84 3 km of length include 28 Ian of field collection lines in the Saratov oilfields and apparently also the length of a branch constructed from Peshany Umet to the Kologrivovka compressor station on the min tr.& use. I ITomboy is not on the trace of Gas Pipeline but that Voronesh-Tambov-Morshansk, 300 km, is a branch from Gas Pipeline projected for construction in original Sixth Five Year Plan. I. I 1 Construction of this pipeline 1 Ithe geographical location is not completely identified. The probable location is shone on the map, Figure 6 (inside back cover). m. This line reportedly vas completed for operation in 1951, but the effective completion of the installation of the line pipe in place probably occurred in 1950. the length of (Planned Gas PipelineL Ivory from 1,265 km to 1,600 km. This variation appears to depend on what lengths are included fOr 15 planned branch lines (see Table 15, p, 73, below) god also for 17 intermediate connecting lines. The 17 intermediate connecting lines presumably are each quite short led serve to tie in with the distribution mains in the 17 populated places which are located on the trace of the central trunk line between Izobil'noye and Moscow (these 17 places are cited in Table 15, p. 73, - 69 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 50X1 50X1 50X1 50X1 VW, I 50X1 50X1 56Se11 DuX1 anvil 50X1' 550X1 1fF!nx1 86X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 13 Principal Transmission Gas Pipelines in the USSR Completed for Operation Before 1 January 1957 (Continued) below. 0f the 17 populated places, Stavropol', Rostev, Voroshilovgrad, and Voronezh are the principal cities. The 1,501 km length as shorm in this table and in Table 15 (P. 73, below) is considered to be that of the central trunk line, 1,265 km, plus those of the 17 relatively short connecting lines. I Ithe lead sector of this line to Rostov, 260 km, was effectively installed in place in 1955, that the installation for operation in the lead eector to Rostov was completed in the early part of 1956; and that the installation for operation in the entire central trunk line to Moscow was effectively cOmpleted by the end of 1956. The relatively short connecting lines to Stavropol,, Rostov, and the city of Podol'sk are I IcOmpleted in 1956, and I Ithe similar connecting lines to the large cities of Voroshilovgrad and Voronezh were scheduled for completion in 1957, Preaumably early in the Year. The 12 other connecting lines to the populated pled. (smaller cities, towns, and villages) presumably either were completed in 1956 or were scheduled for completion early in 1957. In Table 15 (p. 73, below), 15 branches of Gas Pipeline l(Planned Can Pipelinel I are listed as reported, representing an aggre ate le of 66 to. The Rostov-Taganrog branch, Gas Pipeline I KPlanned Gas Pipeline 78w,,I completed for operation in 1956. (Planned Gas Pipelinellwill deliver fuel gas to more than 20 populated places on the route between Izobil'noye and Eoscow. I 17 such places on the central trunk line trace and 15 similar p aces to be served by the branch lines. Gas Pipeline has been heralded with much fanfare in the Soviet preas and radio broadcasts and is declared to be the largest gas pipeline installed in Europe. There has been much publicity about the completion of this significant pipeline a year ahead of schedule. o. This line is I lthe first significant fuel gas pipeline installed in an area that was within the USSR at the time of the installation. I Inatural gas was still being produced in appreciable quantities in the Izerbaeh field as of early 1957. Unconfirmed reports allege that a longer transmission gas pipeline, Khachmas-Derbent-Izerbash-Makhachkala, 200 km long, also exists for natural gas and that its terminal sector is paralleH p. Not shown on the map, Figure 6 (inside back cover). q. I Ithe following transmission gas pipelines were then in service on the Apsheron Peninsula: Eight pipelines leading in the Shaumyanovskiy district of Baku, with origins in these outlying areas on the Peninsula: Peninsula Area Mmeter (Inches) Azizbekov 10 Azizbekov 12 Kaganovich 14 Kaganovich 16 Lenin 10 Lenin 12 Ordzhonikidze 14 Stalin 14 Tao pipelines interconnecting the following areas on the peninsula also were reported: one from Ordzhonikidze to Kaganovich, with a diameter of 16 inches, and one from Ordzhonikidze to Lenin, with a diameter of 14 inches. In addition, I Chernyy Gorod in the Shaumpanovekiy district was connected by a similar 10-inch pipeline with the Kirov Rayon on the peninsula and wan to be connected by three more pipelines of that type whin designated peninsula areas, specifically by a 10-inch pipeline with the Bibi Eybat area, and by a 14-inch line and a 16-inch line with the Aziabekov area. All such transmission gas pipelines on the Apsheron Peninsula would be very short, I I It is presently assumed that the 14 pipelines as above enumerated represent an aggregate length of about 150 in. Other than Sol Hater details are not available on gas pipelines in oilfield areas and other areas on the Apsheron Peninsula except in correlation with the original Sixth Five Nem, Plan. , r. I IGas Pipelinel lappears to have been constructed in 1951-55, to be of large diameter, and to be the carrier supplying natural gas to the Karadag cement plant. The Duvannyy gas deposits appear to have been exploited earlier than were the Karadag gas deposits. I la master distribution gas mean circumventing Baku was constructed, presumably land Planned Inn 'ft.earanasl--I and 46 (see Table 15, p. 73, below) will comprise three pipelines connecting the reportedly prolific Karadag natural gas deposits 10 1950-55. Gas Pipelinesl with the Baku area. I IGas Pipelitel l(PlannedG as Pipelinel } as a second transmission gas pipeline connecting Karadag with Baku. s. Pipeline for transport of producer gas from the large gas plant recently completed at Shchekino, apparently using as ray material the brown coal or lignite of the Moscow Basin. t. l aupply via pipeline of refinery gas for charge stock (process gas) in the synthetic alcohol and rubber plant. -70 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 bUA"I ;50X1 KriX1. 50X1 OUA 50X1 50X1 550X1 I 150X1 -6-6X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E-C -R -E-T Table 14 Installed Lengths of Gas Pipelines Estimated for the USSR, 1 January 1946 and 1 January 1957, and Reported for the US, 1 January 1946 and 1 January 1956 Kilometers USSR Ei US Type of Gas Pipeline Transmission Gas Pipelines Transmission Gas Pipelines Gathering Gas Pipelines 1J Distribution Gas Pipelines f./ Total Gas Pipelines 1 January 1946 1 January 1957 1 January 1946 1 January 1956 1 January 1946 1 January 1956 1 January 1946 1 January 3356 1 January 1946 1 January 1956, Natural gas 713 6,296 124,367 228,061 43,451 74,384 183,170 420,829 350,988 723,274 Manufactured gas a/ 741 5,488 676 o o 110,382 18,572 115,870 19,248 Mixed gas 8/ o 2/ 2,382 4,812 o o 27,647 45,786 30,029 50,59 Liquefied petroleum gas 0/ 32 113 o o 3,203 7,242 3,235 7,355 Total fuel gas 7,037 132,269 213,662 43,451 74,384 324,402 492,429 500,122 800,475 Percent of total gas pipelines 26.4 29.2 8.7 9.3 64.9 61.5 100.0 100.0 a. Pipelines completed for service as shown in Table 13 (p. 67, above). Specific estimates of the lengths of fuel gas pipelines installed in the total USSR are available only for the trans- mission type. b. Field gathering and other collection gas pipelines; in general, the gathering gas pipelines in natural gas fields. c. Distribution gas mains excluding service lines to consumer meters; in general, the distribution gas pipelines in cities and other consumption areas. d. Mixed gas is a mixture of natural and manufactured gases. In the US, natural gas has largely replaced manufactured gas as a fuel gas except insofar as manufactured gas is locally produced and consumed in the industrial plants. Of the total length of transmission gas pipelines installed in the US, the lengths of those for manufactured and mixed gases represented the following percentages: Type of Gas 1946 1956 Manufactured gas 4.1 0.3 Mixed gas 1.8 2.1 Total 212. 2.4 In the USSR the transmission of manufactured gas is relatively more significant in the gas industry. Of the estimated total length of transmission gas pipelines installed for service in the USSR on 1 January 1957, the length for manufactured gas represented 10.5 percent. However, of the total length of transmission gas pipelines shown in Table 15 (p. 73, below), as the ones apparently planned and confirmed for completion for operation during the original Sixth Five Year Plan (1956-60), the length for manufactured gas represents only 4.9 percent. e. do not indicate that transmission gas pipelines have been installed or are planned for mixed gas or liquefied petroleum gas in the USSR. It is quite probable, however, that mixed gas has been, and will be, carried by the distribution mains in the consumption areas which have supplies of manufactured gas as well as of natural gas. As of 1956,1 rapid development in the distribution of liquefied petroleum gas in the form of "bottled gas" for fuel gas use, especially in the Ukraine and in Moldavian cities such as Kishinev. plans to distribute liquefied petroleum gas for fuel gas use, at least on an interim basis until transmission gas pipelines are constructed, in the distribution gas mains of certain cities such as Leningrad. Official Soviet plans further call for the supply of "liquefied gas" (probably liquefied petroleum gas but possibly liquefied natural gas) to distribution gas mains in other cities such as Molotov, Ulyanovsk, Irkutsk, Noginsk, Ivanovo, and Tallinn. - 71 - S-E-C -R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 gtlVl 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 2../* 1956-60 Kilometers Origin Intermediate Points and Terminals Length IV Identified in the Original Sixth Five Year Plan (1956-60) Other Under Construction in 1957 Under Construction in 1956 v s M Se P.N 11 _Lg. _16 . Footnotes for Table 15 follow on p. 79. Kovel, Kobrin, Baranovichi, Minsk, Opochka, Ostrov, Pskov, Lugs., Leningrad Lida, Vil'oyus Riga Khar.kov, Belgorod, Kursk, Orel, Bryansk Gor'kiy Stavropol', Yegorlykakaya, Akmayskaya, Bataysk, Rostov, Voroshilovgrad, Novopskov, 04trogozhak, Semiluki, Voronezh, Yelets, Yefremov, Stalinogorsk, Shchekino, Inn, Serpukhov, Podol'sk, Moscow Nevinnomyssk, Mdneral.nyye Vody, Malgobek, Grosnyy Ordzhonikidze (Dzaudzhikau), Tbilisi, Yerevan Krasnavodsk Sverdlovsk (Siberia) Chernigov 74 1,300 18 - 73 - 426 S-E-C-R-E-T 400 1000 500 200 1,200 Identified in Other Sources V, g ? 0 `i Z, g kg 41,1 .1=J F,4 tA 2 2 g ,92 22 1 1 -1-1 1 'a 'A j4 1,420 1,420 28 200 200 20 280 280 16 500 500 28 1000 1000 28 1,300 1,300 28 000 400 28 500 500 200 200 1,200 1,200 18 18 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 2/ 1956-60 (Continued) Kilometers Intermediate Points Origin and Terminals Ryazan' Belaya Tserkov. Chernovtsy Priokskiy Starobel'ek Lisichansk Rubeznoye Stalino Krasnodon Kamensk-Shakhtinskly Roven'ki Sverdlovsk Krasnyy Sulin Shakhty Length hi Identified in the Original Sixth Five Year Plan (1956-60) Identified in Other Sources Under Construction in 1956 Other Under Construction in 1957 11 4:4 Ng gg .e, v g % ti ,171 il I cii OAt" z g gl 3 g 2,i' 1 i ''It'' n,,t,t h -.i.1 ',??? 8 I 8 ' '4'7, h gt e, 8 t-',3, 82 42 ..8fi85 82 50 50 50 150 150 150 150 15 15 15 75 75 75 25 25 25 65 65 65 15 15 15 130 130 130 130 25 25 25 40 40 4o 10 10 lo 15 15 15 13 13 13 5 5 5 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 . Planned Transmission Gas Pipelines in the USSR 2/ 1956-60 (Continued) Kilometers Intermediate Points Origin and Terminals Length 11/ Identified in the Original Sixth Five Year Plan (1956-60) Identified in Other Sources Under Construction in 1956 Other Under Construction in 1957 5 8"873 Rostov Taganrog Taganrog Zhdenov Taganrog Amvrosiyevka Bistaysk Azov Aksayskays Novocherkassk 78 320 25 31 67 78 120 67 25 34 78 120 67 25 34 Ugersko Dashava 5 5 5 Kosov Kuty, Chernovtsk 65 65 65 Chernovtsy ESmenets Podol'skiy 65 65 65 Zakaxstekays gas MUkschevo, Uzhgorod field 70. 70 70 70 Redchenkov Mirgorod 60 60 60 (Gogolevo) Radchenkov Poltava 90 90 90 (Gcgolevo) Mirgorod area 270 270 270 270 Mirgorod area 220 220 220 220 Mikhaylovka 175 175 175 175 Shebelinka Dnepropetrovsk 192 192 192 28 Dnepropetrovsk Odessa 458 458 458 28 Bryansk Vitebsk Vitebsk Minsk, Vil.nyue, Riga - 75 - 360 680 360 680 380 680 360 680 Vitebsk Pskov, Leningrad 600 600 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 21 1956-60 (Continued) Kilometers Intermediate Points Origin and Terminals Length Si' Identified in the Original Sixth Five Year Plan (1956-60) Identified in Other Sources Under Construction in 1956 Other Under Construction in 1957 Stepnoye Engel s-Saratov 100 100 100 0 Stepnoye Vol ' sk 75 75 75 0 Mukhanovo Kuybyshev 88 88 88 28 Al'mat'yevek Stavropol.krasnyy 260 260 260 260 Shkapovo Belebey, Tuban-Kul, 130 130 130 Shkapovo Ishimbay/Salavat, Sterlitamak area 160 160 160 Ishimbay Magnitogorsk 225 225 225 Saushinsk Stalingrad 127 127 127 a Korobki Stalingrad loo loo loo 21 Korobki Kamyshin 63 63 63 17 Linevo Zhirnoye Ab 27 27 27 14 Archeda Arcbeda 36 127 36 36 127 13 ? 76 ? S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 2/ 1956-60 (Continued) Kilometers Origin Length Fi Identified in the Original Sixth Five Year Plan (1956-60) Identified in Other Sources Under 'Construction So 1956 11 11 and Terminals 14 1 .4 Intermediate Points 8 'A R2 Other Under Construction in 1957 gi v t g 2 22 "5"815 P g R I a Voroshilovgrad, Serpukhov, 550 750 Bosom+ Leningrad 750 750 Tikhoretek 280 283 Navorossiysk 80 Armavir-Tikhoretsk 21 119 Novodmitriyevekaya 70 Groznyy 53 Belyy Scrod (Shaumyanovskiy 50 District, Baku) Baku/Shchluvelyany Sumgait Kirovabad Baku (Pipeline No. 4 to Baku) Ali Bayramli Sumgait Ostrov Artema 45 - 77 - 50 9 a 1,300 1,300 750 750 280 280 Bo Bo 8 1- 28 140 I40 17 70 70 21 53 53 50 50 50 50 45 45 350 350 350 120 120 120 as so 9 9 85 85 50 50 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Table 15 Planned Transmission Gas Pipelines in the USSR L/ 1956-60 (Continued) ovt Intermediate Points and Terminals Kisyl-Kum Kum Dag, Nebit-Dag Khodshiabad Niyasbatyr-Fergana-Kokand Kokand Tashkent. Changyrtash oilfield. Kochkor-Ata Khilya oilfield Xhilya Severnyy Sold, Kokend Severn yy Sokh Shor-Su osokerite mine Length Identified in the Original Sixth Five Year Plan (1956-60) Other Under Under Construction Construction in 1956 in 1957 ?. 4: 8, VS .2'2 11% H Hg 8 u8 u8 7 Yarino (Kama River) Molotov 27 Ukhta/Ishma Molotov, Ishevak Sverdlovak Chelyabinsk Erri Osernyy Okha Rayon oilfield Populated area, Odds Rayon Okha Rayon oilfield Populated area, Okha Rayon Kokhtla -Terve 85 85 205 30 28 s 1 t 3 A 30 10 Identified in Other Sources k 170 900 230 30 30 170 170 10 170 7 7 28 213 30 30 10 10 27 27 4 27 20 20 Iiik 1?211 1,860 1.228 1,1129 5_,.3.72 1,921 5,172 11 661 1 7 24 3 8 22 3 16 75 205 - 78 - S-E-C-R-E-T 900 230 27 4 20 Lam 2.1,3L. 1,927 2 77 8 205 21 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 2/ 1956-60 (Continued) Kilometers Origin Len,rth 91 Identified in the Original Sixth Five Year Plan (1956-60) Identified in Other Sources Under Construction in 1956 Other Ubder Construction in 1957 1 % 1.! ' i 1 '-.,, v 'i. :.:1 I t,,' ts Al A," L'oR, A'' ,, e, e P. M t 11 m , A ?, 1 I :He. ..-.'1 '8:j ''',i: 1,_ k. ;.P. 8,8.8 31, :,.. 8 a ?2 s :2, '2 :Fog. 8 ., 5 ,_, 4 4 Ol F; 2 t 'A tg 0 Intermediate Points ?R 4:, fa' 14a 8" . c,.. co 4 and Terminals g i 8-2 861 6 11 , 8 6 3 A 3 .8 n 2 ,I.:2v, . I i i 8?A Bagley Dnepropetrovsk 40 Krivoy Rog Bagley Stalino, Makeyevka Yenakiyevo, Debal'tsvo, Voro- shilovsk, Konstantinovka, Artemovsk- Kramatorsk 120 240 40 40 120 120 240 240 La 'g25. 120 212.1 1 1 1 1 4 4 12222 1026 1.109 L...21 lal 1,619. 1,112 1.201 Lill 12 266 1-2,.,21 13.966 3.927 15 3 1 7 25 3 9 22 3 16 79 2 81 8 50X1 50X1 , a Except as otherwise indicated ._ these lines are planned for completion in 193 cnv 4 b. Lengths are based on citations where available or ere otherwise based on map measurements and probable deviation faztors. cnv4 _. . . c. Diameters are given only where them is . direct citation, or a reasonably firm indirect substantiation, I I ? --- - ? I d. Although Planned One Pipelinend its principal branches (planned One pipelines were officially proposed and shown on maps in 1956 in the Soviet Preen, I I the proposal had been definitely canceled, whereas earlier l an ometimes earlier years as planned completion dates. Soviet souznes in 1957 indicate that the recent expan- 1 50X1 sions in potential reserves in Ihe Dashava ges fields, at Ugersko and elsewhere, were sufficient only for the requirements of existing one Pipeline? plus the expanding needs for the gas in the western Ukraine.. Planned Gas Pipelines Iwere scheduled to be replaced by l I furnish Shebelinka gee to Minsk, Vil.nyus, Riga, and Leningrad, /TENN, 4 l l' gas to Leningrad. Still later Soviet sources, however, discussed the possibility that the lead sector of to Minsk, length 640 km, combined length 480 km, would be constrUcted after all, canceling the construction of Planned Gas Pipelines , ? ?I combined length 1,640 km. Tbis 50)(1 powsibility would reduce by .320 km the total construction shown to be actual or probable in Table 15. 1959 as the scheduled completion date of any transmission gas pipeline thus involved, whichever ,./....,% I it may be, carrying natural gas from any source to Minsk, Vil'nyus, Riga, and Leningrad. ,J).-//? e. See Table 13, footnote 0, p. 69, above. I C. See Table 13, footnote n, p. 69, abOve. g. Directives and later discussion I I0f the original Sixth Five Year Plan merely state that construction of Planned One Pipeline l lis to be started during the course of the plan. The traoe of Planned One Pipeline s deaignated as Groznyy-ordzhonikidze-Tbilisi in some Soviet sources, whereas other Soviet sources indicate that Mineral'ny Vody - Ordzhonikidze - Groznyy is to be the terminal trace of 50X1 Planned line clth Planned One Pipeline No. 6 branching off from Planned One Pipelinei 'at Ordzhonikidze no as to lead to Tbilisi. It is present nenoaned thntetrace nf Pleased Oas .Pipeline Vody - Malgobek - droznyy and that Planned Gas Pipeline I *ill branch off from planned One pipeline I Ibetween : Mineral.nyye Vody and Malgpbek, passing through Ordzhonikidze !to Tbilisi. plans for the distribution of natural gas from the Stavropol. area to towns in Stavropol' Kray; 1 IPlanned One Pipeline I IAA planned to supply gas to 50X1 yevinnomyssb, and Yeanentuboi in theikray, and also to Mineral'ayye Vody, PYatigorsk, Zheleznovodak, and Kislovodak, the principal healtEresorts of the northern Caucasus in the kray. I I 50X1 - 79 - together with S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 Table 15 Planned Transmission Gas Pipelines in the USSR 1956-60 (Continued) construction work was being started on Planned One Pipelines that Planned Oas Pipeline would be extended to Yerevan, giving a total length of 900 km for Stavropol.-Tbilisi-Yerevan h. Although the location of the Kisyl-Kum reserves is Oct directly identified, there is indirect I levidence for locating thisK4zyl-Kbmiarea as a atepout from the Nebit-Dag, oilfields. I 1 construction of Keened Gas Pipeline I Iwill be in in 1957. The trace of Planned Gaa Pipeline I es &sown on the map, Figure 6 (inside back cover), is schematic only. I I preparatory work on the first-section of Planned Gas Pipeline as schedule& for com letion in the latter half of 1956. Planned Gas PipelinesI land 53 are sometimes identified as separate pipelines, and Planned Gee Pipeline l lis sometimes identified as a branch from Planned Gas Pipeline the length of Planned Gas Pipeline was originally cited as 200 km, as shown in Table 15, but this length has been recently cited as 260 km. i. Directives of the original Sixth Five Year Plan specified that development work was to be started on the newly discovered natural gas reserves at BereCovo and that construction work was to be atarted on planned GOB Pipeline' I Oonstruction work was to be eterted on Planned Gae Pipeline in 1956; construction and completion in 1956 has been inferred 1 lbut the actual status is not Confirmed. k. I linclu as there is no direct confirmation o be su. lied with as via Planned Gas Pipeline I a branch such se Voronezh-Kursk, 225 km, might thus be inferred as planned, but that is doubtful inasmuch according to the original Sixth Five Year Plan a major branch from Planned Gas Pipelinel--kill have the trace, Voronezh-Tambov-Mershansk. See TAble 13, footnote ,j, p. 69, above.' 1. See Table 13, footnete g, p..69, above. m. I learly in 1957 gave information as follows on Planned Gas Pipelines' Th I The two pipelines were considered to be more important than Planned Gas Pipeline With respect to providing fuel gas as a substitute for solid fuels. The particular reference was to the Pridnepr industrial area, including the large cities of Dnepropetrovsk and Dneprodzerzhinsk to which Planned Gas Pipelines I Were scheduled to supply natural gas in 1957; the large city of Zaporozh'ye to which the same two lines were scheduled to supply natural gas in the first half of 1958; and the smaller cities of Lemovaya, Pavlograd, Sinel'nikovo, end'Novo-Misakovek to which the two lines were scheduled to supply natural gee in 1957. The lewd pipeline, Planned Gas Pipeline F I Shebelinka-Dnapropetrovsk, 192 km, was scheduled for completion by 1 .iply_1957, and the next sector of Planned Gas Pipelines Nos. 20 and 21 including service to Dneprodzerzhinek was to be completed in 1957. 'Thus nearly 200 on of the central truWc line in Planned Gas Pipelines I land 21 were scheduled for completion in about 5 months during the first half of 1957. In 1958 the remaining sector of Planned Gas Pipelines' /to Ode.o was to be completed, much Of the excavation and other preliminary work on this remaining portion presumably being scheduled for com- pletion in the latter part of 1957. In addition to the sevea cities of the Pridnepr as above listed, Nikopol', Krivoy Rog, Nikolayev, end Thereon as well as Odessa were designated as principal cities to'recsywe natural one via Planned Gas Pipelines It appears that Planned Gas Pipel I Will have a number of branches leading from a central trunk line in order to deliver natural gas to the various cWes an Iesignated in the Soviet sources. Currently available information provides no details with respect to the proposed routes Of the central line end its branches, and the trace of Planned Gas Pipelineed 1, as shown on the map, Figure 6 (inside back cover), is schematic only. n. This pipelike construction comprises One phase of the exploitation of the Stepnoye natural gee deposits. The directivee and later Soviet source discussions of the original Sixth Five Year Plan specified thot the Stepnoye deposits were to be exploited during the plan period. Available data axa not specific, but it is probable that Planned Gas Pipelines Mil comprise two separate pipelines as here shown. A Soviet source lists for construction in 1957 017-hook tranemiesion gas pipeline, 145 he long; from Saratov to Vol'sk; however, other data indicate that this is a confused reference to Planned Gas Pipelinesl 1 I I 1 a pipeline of large diameter. ? o. P. Ellie second central trunk pipeline from the KterropOl' area to Moscow is to be completed from the oint of ori in to Voroshilovgrad in 1957; length citations for such a completion vary from 500 he to 550 km, the entire line will be completed in 1958, and the entire line will be orb.. in 1097. q. The lead portion of Planned Gaa Pipeline from Alekaandrovka to Armevir,1 scheduled for completion in 1957. I N.o been completed, apparently early in 1957. r. See Table 13, footnote,r, p. 70, above. Planned Gas Pipeline is a pipeline that will connect Karadag with Shuvelyany for supply of natural gas to the power plants Krasnaya Zvezda and Severnaya Gee and also for supply of esters.]. 00 to residential consumption on the Apsheron Peninsula. s. I 1Planned Gee Pipeline is proposed for delivery of natural gae for use an fuel in the pipe rolling mill, the thermal electric power plant, and other industrial installations in Sumgait. , t. Although the location of,GoralKyurov-Dag is not definitely established, it is here inferred andKeradag gas deposits. u. Underwater pipeline proposed to transport associated gas from off-shore production in the Caspian Sea. v. I a 40-km portion of Planned One PipelineIT.:.?H. was installed in 1 6 resumably comprising the portion, Khodzheyabad-Niyazbatyr, scheduled for in- stallation in 195C I ;the entire length o anned Gas Pipeline wen scheduled for completion in the first quarter of 1957, thereby supplying the natural gae not only to Fergana, but also to the towns of Andizhan, Leninsk, and Mergelan. w I I large new reserves of natural gas were being exploited in the Ukhta area and that construction of a transmission ges pipeline was contemplated, connecting the Ukhta natural gas reserves with the Grails. Prior construction of a natural gas pipeline along the trace of Planned Gas Pipeline 1 with such conetruction said to have been ems been allegedl started during World War I/. Because of lack of known confirmation of Soviet origin, this prior construction is considered to be improbable. The trace of Planned Gas Pipeline ' /as shown appears, however, to be logical for the pipeline 1 la plan for the future. .. natural gas aervice was installed in 1956 for domestic use in the following three workers' settlements in Okha Rayon. Novostroyka Rudniki, and Vtoraya Ploshchad. state that systems for natural gas field collection were installed in 1956 in Vtoraya Ploshchad and in Saknornya Rayon on Sakhalin and that Planned Gas Pipeline ill be completed for operaln in January 1J58. I I y. Specific locations of terminals are not identified; pipeline not shown on the man, Figure 6 (inside back cover). 0. 1 146 km of this project were completed by the end ofr1G56_but that work on the reraainin9on to Leningrad was temporarily halted because of the lack of line pipe. In 175,_:.:Lority was given to the completion of Planned One Pipeline[ I Planned One Pipeline is parallel to Gas Pipeline' I in the same service for transport of shale gas. Early in 1957, Gas Pipeline was I reported to be badly corroded and in need of general repairs after nearly 10 years of service. It is reported that Planned Gee Pipeline I /will supply shale gas for fuel to the following plaees in Le ngrad Oblast in addition to Leningrad: Kolpino, Petrovoretak, Pushkin, Sestrorctsk, and Shelenogorsk. Bence a number of branch lines from Planned Gan Pipeline are indicated, but because of a lack of detailed information, the trace of Planned Gas Pipelind las shown on the map, Figure16 (inside back cover), is schematic. that the place is Kirovdag, located southwestward from the general area of the Euvarmyy - 8o - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 - 50X1 50X1 gal bUX1 anv4 50X1 50X1 cJW I Sal gal WX1 gol 50X1 01 goil EK)X1 E50X1 50X1 OVA! OUAI Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 15 Planned Transmission Gas Pipelines in the USSR 1956-60 (Continued) no.in 1939 stated that a network of gas pipelines was then under construction in the Donbas for transmission of coke oven gas for industrial use. The reported network consisted of systems, in- cluding 2 systems leading from Ordzhonikidze (Yenakiyevo), 1 system connecting places in the vicinity of Stalin?, and 1 system leading from Sergo (Kadiyevka), as follows: (1) Ordzhonikidze-Makeyevka-Konstantinovka, (2) Ordzhonikidze-Makeyevka-Stalino, (3) Mushketovo-Stalino-Rutchenkovo-Smolyanka-Putilovka, and (4) Sergo-Voroshilovsk-Voroshiloverad. Later data, however, with direct bearing on such constructions are not available. 11954 stated that there were distribution gas mains in service for coke oven gas in Stalin?, YenakiyeVo, Makeyevka, and Dnepropetrovsk and that apartments were then being piped for use of coke oven gas in Gorlovka, Dneprodzerzhinsk, and Krivoy Rog. In 1955 reported that reconstruction work was then in progress on distribution gas lines for coke oven gas in Stalin?. the original Sixth Five Year Plan called for the construction of 200 km of distribution gas mains to supply coke oven gas to 45,000 apartments in Stalino and further celled for supply of coke oven gas in Gorlovka, Konstantinovka, Yenakiyevo, Artemovsk, and Kramatox'sk. in 1955 stated that coke oven gas was then distributed Throes in Stalin?, Makeyevka, Dneprodzerzhinsk, Ehar'kov, and Zhdanov end that the original Sixth Five Year Plen called f or construct/co of 400 km of transmission gas pipelines to supply coke oven gas to 12 other cities including Gox.lovka, Konstantinovka, Artemovsk, Kramatox:sk, Dnepropetrovsk, Voroshilovsk, and Druzhkovka. It is probable that the remaining 5 of these other 12 cities consisted of Yenakiyevo, Krivoy Rog, DzerzhInsk, Kadiyevka, and Debel'tsevo. I I construction work was concurrently in progress on distribution gas seine for coke oven gas in Stalino, Gorlovka, Konstantinovka, Yenakiyevo, Artemovsk, Kramatorsk, Makeyevka, Zhdanov, and Dzerzhinsk. In Table 15 the 400 Ism of transmission gas pipeline as planned (1955-60) for coke oven gas in the Donbas and Pridnepr area bine ion o line generally identified mr11 Idata on the original Sixth Five Year Plan. I will connect the coke oven facilities of )(rivoy Rog with the fuel gas services in Dneprodzerzhinsk and Dnepropetrovsk, via the Bagley coke oven facilities. Plenned One Pipeline 19w. 69 will interconnect the coke oven facilities and fuel gas services as situated in the local areas of Stalino-Makeyevka, Yenakiyevo-Gorlovka, Debal'tsvo, Kadiyevka-Voroshilovsk, Druzhkovka-Dzerzhinsk-Konstantinovka, Artemovsk, and Kramatorsk, including within these local areas the more localized vicinities of Musketovo-Stalino-Rutchenkovo-Smolyardso-Rutilovka and Artemovek-Sergo. gas-pz.odOoing coke oven (or coke chemical) facilities exist not only in Krivoy Rog and s.t Bagley but also in Dneprodzerzhinsk, Stalin?, Nakeyevka, Yenakiyevo, and Voroshilovsk, with new facilities of that type to be constructed during the Original Sloth Five Year Plan at gonstantinovka. It appears that fuel gas service in Ichar Ikov and Zhdanov, and possibly also in Voroshilovgrad, will be hwdivnduoll su,lied by local coke oven facilities. reportedly was completed in 1956, and reportedly wan planned for completion in 1957. Active construction work reportedly wool in a Or0 1, In 1955-57 on the general fuel gas supply system represented 31 and the central trunk line o pparently was under construction in 1957. The route of fl s shown schematically on the map, Figure 6 (inside back cover )--1 - 81 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 go-5X1. nvl anv 50X1 50X1 5nxi I 50X1 bUAl Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C -R-E-T Table 16 Chronology for Construction of Transmission Gas Pipelines in the USSR Before 1957 Date of Installation of Line Pipe in Place 8/ Date Completed for Initial Operation Before 1946 1946-50 1951_95 Before 1956 1956 Before 1957 Before 1946 1946-50 1951-55 Before 1/56 1956 Before 1957 Units Length (Kilo- ma_e_ial Units Length (Kilo- smtm_Imi Units Length (Kilo- reste Units Length (Kilo- mtsj... Unite Length (Kilo- 905985 00005 Length (Kilo- na_y_lsma/ Units Length (Kilo- ells, Units Length (Kilo- Ea_telam Units ? Length (Kilo- mtels3 Units Length (Kilo- mes_ Units Length (Kilo- mea, Unite Length (Kilo_ 1,320 1 1,320 1 1,320 1 510 1 810 1 1,320 1 1,320 1 843 1 843 1 843 1 843 1 843 1 843 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 166 1 260 1 260 1 260 1 260 1 260 1 260 1 100 1 100 1 100 1 ioo 1 100 1 loo 1 164 1 164 1 164 1 3.64 1 164 1 164 1 127 1 127 1 127 1 127 1 127 1 127 1 260 1 260 1 1,040 1 1,300 1 1,300 1 1,300 1 1.009 I 31?.5.2. i'la I'3..1_08 4 1 040 L 4J2.L6 4 166 L Lau. 2. 31127 6. 3.,3L6 II _.,.3m3. 2. 4 446 9_ 203 1 203 1 203 1 203 1 203 1 203 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 200 1 221 1 322 .2 331 1. 331 i 221 1 498 2 Li 1 333. 1 Lag g Lai i Lig ?, 4,009 12. igg L 5,049 12 1.61 1 315.5.6. 1 2,027 8 31749 II 1,421 I 'too 12 75 1 75 1 75 1 75 1 75 1 75 1 47 1 47 1 5 1 52 1 47 1 47 1 5 1 52 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 70 1 60 1 60 1 60 1 60 1 90 1 90 1 90 1 90 1 74 1 74 1 74 1 74 1 97 1 97 1 78 1 97 78 1 1 97. 1 97 1 78 1 ?Z ( Bo 1 Bo 1 Bo 1 80 1 80 1 80 1 80 1 80 1 80 1 80 1 72 1 72 1 72 1 72 1 72 1 72 1 80 1 Bo 1 80 1 80 1 80 1 80 i 65 1 65 1 65 1 65 1 65 1 65 1 75 1 75 1 75 1 75 1 75 1 75 1 50 1 50 1 50 1 50 1 351 i 5.23. 1 Sol 11 Lk31 1 1,2.1 11 21/ ii. lilt / LI II 'In / lal LI 53 1 53 1 53 1 53 1 53 1 53 1 &U a ?2 2.71. I 31 a. The data as given do not account for line pipe installed in place before 1 January 1957 eM not completed for operation by 31 December 1956. - 83 - . S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 b - Table 16 Chronology for Construction of Transmission Gas Pipelines in the USSR Before 1957 (Continued) Date of Installation of Line Pipe in Place Date Caapleted for Initial Operation Before 19106 1946-50 1951-55 Before 1956 2956 Before 1957 Before 1946 1946-50 1951-55 Before 1956 1956 Before 1957 Length (Kilo- 5,11Laill Units Length (Kilo- assirii/ Uhite length (Kilo- aelmol Unite Length (Kilo- Ines Units length (Kilo- a64a-9.1 Unite length (Kilo- m_LteLi.e. Unite Length (Kilo- sqlnal Length (Kilo- Units eLE.31 Unite Length (Kilo- m_e_tes.ai Unite Length (Kilo- 9.1Eal Unite Length (Kilo- eLmILL. Unite Length ast_eL31 Units 42 1 42 1 42 1 42 1 42 1 42 1 40 1 4o 1 40 1 4o 1 4o 1 4o 1 18 1 18 1 18 1 18 1 10 1 10 1 10 1 10 1 10 1 10 1 25 1 25 1 25 1 25 1 25 1 25 1 15 1 15 1 15 1 15 1 5 1 5 1 5 1 5 1 5 1 5 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 17 1 30 1 30 1 30 1 30 1 30 1 30 1 19 1 19 1 19 1 19 1 19 1 19 1 10 1 10 1 10 1 10 1 10 1 10 1 32 1 32 1 32 1 32 1 32 1 32 1 25 1 25 1 25 1 25 1 25 1 25 1 26 1 26 1 26. 1 26 1 26 1 26 1 150 14 150 14 150 14 150 14 150 14 150 14 30 1 30 1 30 1 30 1 30 1 30 1 7 1 7 1 7 1 7 1 7 1 7 1 14 1 14 1 14 1 14 1 14 1 14 1 10 1 10 1 10 1 10 1 10 1 10 1 5 1 5 1 5 1 5 1 5 1 5 1 7 1 7 1 7 1 7 1 27 27 1 1 27 27 1 1 27 27 1 1 27 n 1 1 4 1 I. 1 4 1 4 1 gli a a 41.2 a Vt. 12 a Sa a LYS! 22 aol / La a gL Ig a 6,2 a 10 1 10 1 n 1 10 1 10 1 10 1 40 1 40 1 40 1 40 1 35 1 35 1 35 ,1 35 1 35 1 35 1 ia a al a a ill a L.Lc1 a a a 22. 11 I 2a 1.1. I LIZ 'a am al I 1.311. gl aaa a 391 16 39 aa 1,575 14 .6.,g2i 64 al gi 131k i um06 itha a L/5.1 14 6.290 64 221 i !tg a 121 91. 1 rIL I aga a!,41a /2a 91 a 391 ; 1,aa .11 Ii2L1 a 22912 ag 1911 11 7,097 IL 111 aa 1A21 12 64791 gi 3162 2/ LIM a 73037 IL -84- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 17 Estimated Throughput Capacities of Transmission Gas Pipelines in the USSR 2/ 1 January 1957 Pipeline Terminals Length (Kilometers) Throughput Capacity (Million Standard Cubic Meters Per Year) Dashava, Moscow Saratov, Moscow 1,320 843 900 600 Buguruslan, Kuybyshev 166 250 Buguruslan, Kuybyshev 166 250 Minibayevo, Kazan' 260 350 Minibayevo, Tuban-Kul' 100 150 Oktyabr'skiy, Ufa/Chernikovsk 164 150 Archeda, Stalingrad 127 150 Izobil'noye, Stavropol', Moscow 1,300 5,000 Kokhtla-Yarve, Leningrad 203 350 Kokhtla-Yarve, Tallinn 200 200 Shchekino, Tula, Moscow 200 260 Total 5,049 8610 a. All pipelines shown are at least 100 km long. The capacities as shown are probably maxima and possibly higher than is realized. -85- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S -E-C -R -E-T Table 18 Potential Service Factors of Transmission Gas Pipelines in the USSR and the US 2/ 1950, 1955-56, and 1960 Plan in the USSR and 1954 in the US Operating Transmission Gas .Production s/ Gas Pipelines bi (Billion Standard Potential Country and Type of Gas Year (Kilometers) Cubic Meters) Service Factor USSR Natural gas 1950 2,168 5.8 374 1955 4,461 9.0 496 1956 6,296 12.06 522 1960 16,122 56.5 2/ 285 Manufactured gas 1/ 1950 203 .04 508 1955 701 1.4 501 1956 741 1.66 446 1960 1,306 3.5 373 US Natural gas 1954 215,646 203.4 1,060 a. Estimated data for the USSR; reported data for the US. b. At the end of the year shown. C. Net field delivery to transmission. figures are .ladicated (but not positively stated) to be the quantifications of net field delivery to transmission. The following material balance for the US shows the significance of such quantifications, even though the available intelli- gence is inadequate for a similar balance for the USSR: Production and Disposition Billion of Dry Natural Gas in the US 1954 Standard Cubic Meters Stripped gas 192.3 From oil cell associated gas From gas well vet gas 95?3 97.0 Crude dry gas from gas wells 110.0 Gross production 302.3 From oil wells 95.3 From gas wells 207.0 Oil well repressure use 43.0 Net production 259.3 Field storage in ground 2.9 Gross field delivery 256.4 Field consumption 53.0 Field waste Field use u.8 41.2 Net field delivery to transmission 203.4 Transmission waste 6.1 Marketed use 121L1 Field use 41.2 Total use 238.5 Total waste 17.9 Gross field delivery 256.4 d. Kilometers of pipeline per billion cabin meters of gas. e. 1, which show considerable upward revision of the original planned figure. f. about 250 manufactured-gas plants existed 111.1956 in the USSR, producing 15 billion standard cubic meters of low-calorific fuel gas per year. Pre- sumably included in this enumeration and output are the local coal gasification plants and their production of gas for local use, as well as the plants and correlated production of manufactured gas which are serviced by transmission gas pipelines. Production of smell- factored .gas,[ Ipresumably refers only to the plants and correlated production of manufactured gas serviced by transmission gas pipelines. - 87 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X 1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T Table 19 Specific Conversion Factors for Petroleum Products 2/ Products Degrees API 12/ Pounds per US Gallon Barrels per Metric Ton Aviation gasoline 68.0 5.904 8.891 Other gasoline 61.0 6.119 8.578 Kerosine 42.0 6.790 7.731 Specialty distillates (naphtha, gas oil, solvents, and the like) 41.7 6.803 7.716 Diesel fuel and distillate fuel oil 36.0 7.034 7.462 Benzene 29.4 7.323 7.168 Lubricating oil 27.0 7.434 7.061 Residual fuel oil and light specialty liquid residuals 13.0 8.115 6.437 Heavy specialty residuals (tar, road oil, and the like) 4.6 8.658 6.063 Liquefied petroleum gas 133.3 4.450 11.799 Natural gasoline 79.0 5.596 9.379 Cycle product type of natural gas liquids 49.1 6.523 8.047 a. These conversion factors are applied only where the stock is specifically identified. The factors are used primarily in the unpublished appendixes. Standard values of the oil industry are assumed for temperature and pressure. Average dry refinery still gas is considered to weigh 0.07 pound per standard cubic foot. b. Degrees of gravity on the Ameridan Petroleum Institute (API) scale. Data as shown are for liquid products only. c. The standard oil barrel of 42 US gallons (35 Imperial gallons) is used. -89- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: ";IA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T APPENDIX B METHODOLOGY 2. Soviet Oil and Gas Pipelines. a. Basis of Estimated Physical Data for Oil Pipelines. In general, the oil pipelines discussed in this report are the most important ones in the USSR In some instances, however, the available evidence is not conclusive. Estimates have been made for some minor trunk oil pipelines and certain trunk oil pipeline branches in addition to the major trunk oil pipelines. It was nec- essary in several instances to develop additional estimates for the line pipe diameters and dates of installation of some pipelines. The additional estimates are based on evidence of Soviet practices in a given area or in general or during a specific time period, and the estimates are subject to a rather wide range of probable error. The estimates of the lengths of pipelines are selected by correlation with map measurements and probable route deviations where necessary, and are believed to be the most realistic available. Table 1* shows 10 pipelines under construction and 8 pipelines completed in 1956, all,of which are projects of the original Sixth Five Year Plan, and also shows 76 pipelines completed before 1956. * Appendix A, p. 41, above. -91- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 5C50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 ? S-E-C-R-E-T Table 1 summarizes the information available at the time of the final compilation of this report, but new data were becoming available later in 1957 which may identify a number of trunk oil pipeline constructions and construction activities not listed in the table and may necessitate revision of some data given in the table, particularly that of 1950-56. All pipelines in Table 1 serve as main central lines between terminal points, and to facilitate comparison with US statistics on trunk pipelines, all pipelines in the table are considered as trunk lines. Because of a general lack of adequate in- telligence data at present, no specific coverage of gathering crude oil pipelines in Soviet oilfields is included in this report. b. Basis of Estimated Physical Data for Gas Pipelines. Progress in the Soviet fuel gas industry has been limited except in the last few years, and Soviet publications, even as late as 1956, point to the acute inadequacy of the distribution gas pipelines in the cities. c. Assumed Continuity Status of Oil and Gas Pipelines. If an oil or gas pipeline is indicated to have been installed between given terminal points in the USSR, and if there is no evidence to the contrary, it is here assumed that the pipeline has been con- tinued in active service. Various maintenance operations, such as re- pair, rehabilitation, or even replacement, depending on the age and use of the line, obviously would be required for service to continue. With few exceptions, service is reported and estimated total pipeline lengths as given for the USSR.* considered to have been continuous for all of the 50X1 50X1 50X1 50X1 50X1 50X1 * In the US at present, most of the new pipeline construction is either for replacement of old lines or along new routes to serve for production or processing. The USSR is still in the stage of building oil pipelines largely for service to older areas of production and processing. 50X1 during 1950-52 in the US almost 45 50X1 percent of the total length of new oil pipeline construction (more than 51,000 km) served to mske up for oil gootnube continued on p. 917 -92- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T 3. Petroleum Traffic in the USSR. The quantity or volume of Soviet petroleum traffic is estimated in this report in terms of metric ton-kilometers, metric tons origi- nated, and average length of stock transport in kilometers. Unless otherwise noted, metric ton-kilometers and metric tons originated are considered and quantified on an annual basis. The average length of stock transport in kilometers is the ratio of metric ton-kilometers to metric tons originated. Soviet literature on oil pipeline traffic is mostly concerned with the transport of nongas petroleum stock* by railroad, internal waterway shipping, and maritime shipping and usually excludes reference to truck or other highway freight traffic. Such nongas petroleum stock generally consists of crude oil and petroleum products, presumably including natural gas liquids. Most of this stock in the USSR originated as natural petroleum, but minor quantities of synthetic petroleum derivatives may be included. 4. Auxiliary Service Installations and Potential Throughput ,Capacities. The principal auxiliary service installations consist of tank farms and pumping stations for oil pipelines and of gas holders and pipelines that were concurrently dismantled either along the same route or along different routes. During the subsequent 3-year period, 1953-55, almost 42 percent of more than 50,000 km of total new oil pipeline construction similarly served to make up for con- currently dismantled lines. * The nongas-stock is predominantly liquid petroleum in the physical state handled, chiefly the following: crude oils and natural gas liquids; distillate or liquid fuels for internal combustion engines, mostly as gasolines, otto-cycle tractor fuels, diesel-cycle engine fuels, and jet fuels; other kerosines; lubricating oils; specialty oils and other specialty naphthas with solvents included; and residual and other types of fuel oils primarily used for direct heating. In minor proportions the stock may consist of semiliquid materials (tars, asphalts, paste greases, and the like) and some solid materials (petro- leum coke, waxes, and the like). Petroleum pipeline traffic, of course, is essentially restricted to the transport of fluid stocks. -93- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C7R-E-T compressor stations for gas pipelines. Potential throughput capac- ities refer to time rates of volume or mass transfer of oil or gas by pipelines. The available information for all such features is applicable to only a smnll portion of the total lengths of the pipe- lines in the USSR. no attempt has been made in this report to develop an over-all correlation for the auxiliary service installations. A brief review is included in the unpublished appendixes, however, to cover the source information on facilities of those types. 50X1 a reasonable basis for estimates of the 50X1 actual amount of transportation accomplished by use of oil pipelines in the USSR, but data are not available on the actual use of gas pipe- lines. Estimates of the actual amount of transportation by oil pipe- lines are substituted in this report for estimates of potential capac- ities applicable, inasmuch as the estimates of actual use should be of more intelligence value than estimates of potential capacities. In the unpublished appendixes, however, there is a summary of the fragmentary data available for potential capacity ratings of the Soviet oil pipe- lines. For the trunk or transmission gas pipelines estimated to be existing in the USSR, available data on even the potential throughput capacity ratings are fragmentary. 5. Data on Oil Pipeline Traffic. The estimates in this report for oil pipeline traffic in the USSR are based primarily on the data and ratios published in the Soviet press in 1955-57. These data generally relate Only to specified key years, and the time sequences as here estimated required a somewhat elaborate system of interpolations and extrapolations together with use of numerous sources of earlier origin. Although all comparative data for the USshown in this report are essentially based on open- source statistics, a mathematical analysis of some complexity was required to develop data suitable for comparison with oil pipeline traffic in the USSR. Details and full documentation for the oil pipeline traffic data in the USSR and the US are included in the unpublished appendixes.* S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12: CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 S-E-C-R-E-T 6. Recent General Reports on Soviet Oil and Gas Pipelines. In 1956 and early 1957 a number of Free World press reports were published, generally covering the trunk pipelines installed and cur- rently planned for oil and gas in the USSR. These reports vary from brief summaries to comprehensive discussions and generally have pipeline maps attached and sometimes deal only with the Soviet gas industry. 7. Weight-to-Volume Conversion Factors for Petroleum Stocks. In this report an assumption is made that when no temperature and pressure conditions are specified, the standard values of the industry are implied for such conditions where volumes are reported for liquid petroleum. On the basis of general information, refer- ring to the standard oil barrel of 42 US gallons, the liquid densi- ties of typical natural crude oils are assumed to be as follows: 7.3 barrels weigh 1 metric ton in the USSR, and 7.418 barrels weigh 1 metric ton in the US. Distillates generally predominate among petroleum product oils transported by pipeline, and the average con- version factor for such product oils in the US is 8.488 barrels per metric ton. On waterway carriers, such as river barges and ocean tankers, loads of petroleum products normally consist of all of the liquid types together with the solid types, and for such liquid prod- ucts the average density is taken as that of the typical natural crude oil. Specific conversion factors for petroleum products are shown in Table 19.* In addition to the liquid products shown in the table, average dry refinery still gas is considered to weigh 0.07 pound per standard cubic foot. * Appendix A, p. 89, above. -95- S -E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 SECRET Figure 6 1 January 1957 TRUNK OR TRANSMISSION LINES Projected in the original Sixth Five Year Plan: Natural Gas Natural Gas (cancelled or doubtful) as lIIIIluuIJIuiiajjjjn Manufactured Gas Major area of natural gas production Other significant area of natural gas production Pipeline number (see text) Manufactured Gas Plants: + Large capacity + Smaller capacity 28 twit*Nye v o re4e josey:koiy 7e : ir 0": 0y42 to/4.. ?6'10 tyito 41204. 25617 12-57 SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 USSR: OIL PIPELINES 1 January 1957 TRUNK LINES Existing (confirmed by Soviet sources) Existing (confirmed by non-Soviet sources) Under Construction (original Sixth Five Year Plan) Planned (original Sixth Five Year Plan) Planned (original Seventh Five Year Plan) Doubtful SECRET Figure 1 Existing-undergoing major expansion Under construction or planned (large capacity) TUYMAZY AREA To Irkutsk 25610 12-57 SECRET Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 Declassified in Part - Sanitized Copy Approved for Release 2013/09/12 : CIA-RDP79R01141A001000140002-2 50X1 50X1