CAPABILITY OF THE TRANS-SIBERIAN RAILROAD

Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T BOON= INTELLIGENCE CatinDlti=? SUBCONNOMEZ ON TRANSCPCUTATION frsoptet E.TC4151-S1 CAPABILITY OF THE TRANS-SIBERIAN RAILROAD Pima Draft of the Transportation Capabilities Estimates Group This study is based. on information reeeiv,4 to August, 1956. DIA review(s) compleinakoved For Release 2011110916aA-RDP921301090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 B-E.C.R?41-T MOM The Trans-Siberian Railroad is the sole surface transportation artery es:meeting European USSR with the Soviet Far East and Coannedst Chins.. An understanding of the capability of this railroad is important, therefore, ill estimating the military and. ecceomic capabilities, intentions and vulnerabilities of the USSR and Commuaist Mina. Mae first report prepared by the Subcomaitbee z Transpca-tation on this subject was approved by the Economic Intelligence Committee? and published as EIC P.54 "Capability of the Trans-Siberian Rai.Troad amALComeeting Lines in Manchuria androrea," on 23 March 1953. Sinee that time conaiderab3s additional information has become available and. the Subcommittee GA Transportation has improved its method of estimating the capability of railroad routes. The importance of this abject warrants the publication of a revised estimate at this time. The Transportation Capabilities Estimates Gro np has been able to agree on the through capability of the Trans-Siberian Railroad and on all other major aspects of the problem. 25X1 however, it has not been possible to achieve complete agreement on the specific capability of Individual sectors; or the throne* route. fte points or difference and the reasons therefore are indicated in the footnote to Table I. S-E-C-R-E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 ii Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 TABLE 07 CONTENTS Page I. Introduction 1 II. Capability of the Trans-Siberian Railroad 5 A. Through Capability 5 B. Sector Capability 7 Short Over-all Description of Lines and. Areas Serval 9 A. Geographic Description 9 B. Technical Characteristics of the Line 9 C. Equipment 9 D. Traffic 9 ANNEX 1 - Supporting Data for the Estimate of the Capability of the Trans-Siberian Railroad I. Capability of the Trans-Siberian Railroad A. Capability in Freight Trains Each Way per Day 11 11 1. Capability of the Line in Trains . . . . . ........ a. Iftchma Signal spacing b. Average Freight Train Speed 12 2. Capability of Yards 15 3. Capability of Freight Locomotive Repair Facilities . . . . 15 4. Sector CapablIXIV for Freight TrEins. 16 5. Netball of Computing Total Through Capabilitv for Freight Traffic . . ?.?. . . ...... ..... 17 B. Capability in Tons per Train i.. ? . . ? .31 1. Maximum Gross Train Tonnage ..... 31 2. Maxim= Net Train Tonnage . . . 31 110 Over-all Description of the Line and. Area Served 36 A. Geographic Iescriptioa af the Area Aloag the Lima . . .... 36 1. Terrain..? ?? ........... . ?.... ? 36 2. =nate . . . . ? ? . . ? ? . . 28 3. Cultural Description. ? . . ...... ? ? . ? .. a . 39 a. Major Cities Served . a ...... ? ? ? ? ? 0 ? ? 39 b. Freight Traffic Producers Along the Line . . . 40 o. Transportation Route Patterns . . . . ? . ? . 45 Approved For Release 2004/?14t ...?14k-RDP92601090R000300020032-8 iii 25X1 Approved For Release 2004/?WitreAttii-AbP92B01090R000300020032-8 R. Teekaisal naracteriatics of the Line 1. Line Characteristics ? ... 2. Sigmas ? ? ? . OOOOOOOOOOOOO ? . 3. Yards 4. Locomotive Repair Facilities ? ? - . . a. Locomotive _Depots and Turneround POinp b. Locomotive Repair Plants 5. coaling ami Waterlog Facilities . . . . . Equilment .., . ......... . 1. locomotives . . . . . . . ...... ? ? ..... a:,?61 O OOO ? Ne. 50 50 54 55 55 55 ? ? ? ? ? ? 61 . ? ? 61 . ... 61 ..... 61 .? .. 69 . . ? . 69 . 0 40 0 . ? ? ? . 75 . . . .... 75 . 75 ? . ? 76 . 76 77 a. Types in Use. .. b. Inventory. . , . . . . Freight Cars a. Types in Use . . b. Inventory . 0 0 0 ....... 0 0 Operation of the Railroad 1. Yard Operation 2, Freight Train Operatioa a. Types of Freight Trains. b. Signalling and Dinpatching . . . . DoUb1e Beading of Trains. . . . . . . ... . . .7A pr Freight Car Operation 78 78 a. Average Car Capacity and Tare Weight b. Net Tons Per Car 79 Approved For Release 200410aaAgpf92B01090R000300020032-8 25X1 S-E-C-R-E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 LIST OF TABLES Table Number Page 1, Sector Capability of the Trans-Siberian Railroad for Freight Trains .8 2, Estimated Line Capability for Freight Trains . ? ?00 ? ?000 14 30 Estimated Capability based on Yards . 0 OOOOOOOOO . 18 4, Estimated Capability based on Freight Steam Locomotive Repair . Faoilities 21 5. Sector Capability for Freight Trains 26 6, Division Capability for Freight Trains . . ? 0 ? 27 7, Maximum Gross Freight Train Tonnage Capability by Sector. 33 8, Maximum Net Freight Train Tonnage Capability by Sector. ? . 35 90 Line Characteristics ......... ??????0 0 0 ? . 51 100 Steam Loomnotive Repair Facilities. . . 57 110 Specifications of Stearil Freight Road Locomotives Used. , 62 12, Boiler Characteristics. 0?o000008????9004000 64 13, Boiler Tractive Force ......... ? ?000000090 65 140 Cylinder Tractive Force Factors. . . . . . . ?????00000 67 150 Cylinder Traotive Force OOOOOOO . OOOOOO . . . . 00 68 18, Estimated U.S.S.R. Freight Locomotive Inventory, 1955.8 . . . . 70 17, Specifications of Major Soviet Freight Cars. , . 40 ? 0 72 18, Estimated Soviet Freight Car Park, Beginning 1954. . 190 Weighted Average Freight Car Capacity and Tare. . 79 20, Weighted Average Net Load per Car by Major Commodity Types. . . 80 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/6141PrttWIDP921301090R000300020032-8 I. INTRODUCTION The capability of the Trans-Siberian Railroad, the subject of this paper, is vital to the Soviet Union because of its political, economic, and strategic significance and is, therefore, of greet concern to the entire free world. For purposes of this study, the railroad is the 4,100 miles of double-track, 5gOn gauge main line which connects Omsk in testern Siberia and Vladivostok in the Soviet Far East. (See attached map.) It is the sole rail link connecting Furopean USSR with the Soviet Far East and China. In addition, it is the major and in some =sell the only link connecting the industrial centers in the Urals Kuznets, and Central Siberia. The preponderance of traffic on this railroad moves between these industrial centers. Soviet dependence on the Trans.4iberian is apparent when the tonnage- carrying capability of the railroad is compared with the insignificant tonnage moved over the Northern Sea Route, the only other Soviet controlled supply route with a through capability. No through roads nor inland waterway networks exist. In times of peace a large amount of bulk freight is moved through ocean shipping ports in European USSR to the Far East, but during periods of world tension or in time of war the Trans-Siberian is expected to bear the major part of the transportation burden. For this reason, up-to-date capability estimates of the Trans-Siberian are the concern of all United States Intelligence Agencies. aoRp.C.01N4,4 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 ?1? Approved For Release 20,9483T/f8-:Eetiet-RDP921301090R000300020032-8 This study provides an estimate of the through tonnage capability of the railroad by sector under peacetime conditions for a sustained period of tine, The term "through" is defined as traffic moving between the termini of the line, Omsk and Vladivostok, on the one hand, and Omsk and the connecting lines leading to Mongelia, Manchuria, and North Korea, on the other. The term "capabilWis defined as the maximum performance which is attainable with existing facilities, technology and operating methods when the limitation of all coutributing factors are considered. A capability estimate is, therefore, an average figure rhich can actually be obtained over a sustained period of time. The "sustained period of time" is considered as being a year or longer? 1r addition it is ausummi that sufficient personnel, locomotives and freight cars are available for operation of the line at capability and that all trains operating are freight trains. The methodology employed in the preparation of the estimate follows the procedure recommended in a working paper approved for testing by the Subcommittee on Transportation, "Agreed Methodology for Computing Capability for Through Freight Movement," September 1955. As work progressed on this estimate, the methodology VAS otpanded and, in. parts modified. 25X1 S-E-Ce.R-54 Approved For Release 2004/01/20: CIA-RDP92601090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Next 1 Page(s) In Document Exempt Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/0443R4.144DP92B01090R000300020032-8 25X1 II. cApABILin OF THE TRANS-SIBERIAN RAILROAD A. Through Capability The Trans-Siberian Railroadtextending same 4,100 miles from Omsk in V.estern Siberia to Vladivostok in the Far Eastsis a vital transportation artery. The western section of the road between Novosibirsk and Omsk, where there is a preponderance of west-bound traffic movements has the highest traffic density of any section of railroad in the USSR. The volume of westbound traffic drops off sharply east of Novosibirsks but continues to Approved For Release 2004/01/204Q1A-RDP92B01090R000300020032-8 Approved For Release 2004/0414;:_c4AIDP92B01090R000300020032-8 exceed eastbound traffic at least as far east as Teyshet from which point eastbound traffic exceeds westbound traffic in volume* USSR railroad officials are very concerned about the ability of the railroad V I10 the anticipAted rcreases in traffic and have made plans for the inirovamInt a t.,1z1 raa,roac thr)ugh aectrifidationc Plans call for the electrification of the line as far east as Irkutsk by '19600 and intentions to electrify the entire line to Vladivostok by 1970 or 1975 have been announced. Electrification of the line from Omsk to Novosibirsk was completed at the end of 19564) but there is evidence that some steam motive Domer was being used on this stretch of the line during 1956 indicating difficulties in converting all operations on the line to electric traction. The capability of the railroad varies throughout its length (See Table I) with the weakest portions of the railroad existing east of Tarskiy. At Tarakiy the line branches southward to the !Ianchurian border providing an alternate route to the Soviet Far East by way of the old Chinese Eastern Railroad. Currently, there are four connecting railroads between the Trans-Siberian Railroad and Communist China. The first connects at Zaudinskiy (near Ulan Ude) just east of Lake Baikal with the Trans -Mongolian Railroad into China at Chining; the second connects at Tarskiy just east of Chita with the Manchurian railroads at Otpor Manchouli; the third connects at Voroshilov2 just north of Vladivostok9 with the Manchurian railroads at 0rodekovo Suifenho; and the S-Fia0-4t-E-T Approved For Release 2004/01/20 rETA-RDP92B01090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-Z4-11-N-T fourth connects at Baranovskly, just south of Voroehilov *with the North Noreen railroads eat thence the Manchurian railroads atIongut. We estimate that the Trans-Siberian Railroad has the capability to move in the mapitiviaof pooDo net short tons each way per dgy. (NWPD) between Omsk and. Vladivostok exclusively in USSR territory. Detwesa Omsk awl the connectU*6 lines to Mongolia and Manchnria we estimate that 140,000 short tons NWPD can be mowed. The estimated margin of error for item through caTebaitr =Mee is plus or mime 20 percent. Veziows motto= of the line have a ow:bi-Uty to move tonnages in excess of the stated. B. Sector Capability Tabl.e I shows the capability of each sector of the Trans-Siberian Railroad. In terns or an ?pile= combination of single and double-headed freight trains to produce marleasi tonnages less IWO trains each way per day for operating requirements of the railroad.. The capabiliV for each sec. is determined. by the individual division within the sector vidch has the lowest capability (See Tables 3, 4, 5 and. 6). The estimated margin of error for the sector figures below la plus or minus 20 percent. -T- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/61%26 : bIA-RDP92B01090R000300020032-8 8-E-G-R-E-T TABLE I Sector Capability of the Trans-Siberian Railroad for Freight Trainel/ (Based on assumptions stated in the Introduction) LIE1'rainsEWFD Tonnage per Train Total Net Short Single Sector headed Omtk-Novosibirek 4321,1 4Y-41 Novosibirsio4chinsk 32 Achinsk-Taysheb 36 Tayshet-Irkutsk 19_, Irkutskm..81yudvanka 21A/ Slyudyanka-Zaudinskly 23 Zaudinskiy-Tarskiy 31 Tarskiy-Skovorodino 26 Skovoredincp4rkhara 25 Arkham-Khabarovsk I 11 Khabarovsk I.41adiamistak 29 Double Total (Net Short Tons) Tons EWPD2/ headed Single Double headed headed 0 432/ 2,3202/, -- 99,800g --.0 43i/ 1,365a/ 58,700ft/ 0 32 1,240 -- 39,700 0 36 1,125 . -- 40,500 12 31 10005_ 1,810 40,800 10 312/ 1.00CW, 2,000 41,0002/ 8 31 l?085i 1,960,- 4u,n00 3 34 1,02541. 1,480di 36,200 0 26 1,170 -- 30,400 0 25 1,210 -- 30,300 8 19 1,250 2,250 31,800 0 29 1,025 1,840 29,700 y in addition to the freight trains Shown, each sector has the additional capability of handling two single-headed trains for railroad, operation (including fuel) and maintenance. No deductions have been made for minimum essential freight or passenger traffic. A method for estimating these deductions is outlined in , Annex I. (See 19 A9 59 Method of computing total through capability for freight traffic), 2/ Rounded to nearest hundred. 2/ Based on electric operation. i/ Based on steam locomotive operation. 2/ includes use of helper steam locomotives over 1.7140 grade. Note: The 'CIA member is unable to concur in the, estimates of the capability of the various railroad sectors contained in this report. Estimates of .traffic moving westbound over the Omsk.Novosibirsk_and Achinsk-Tayshet sectors exceed the capability given above despite the estimated margin of error. (See CIA/RR 82, The Volume and Character of Traffic on the Trans.iberian Railroad in 9j, . veMber 9 n view o e discrepancy between traffic estimates and capability estimated herein for these two sectors, CIA suggests that all sector capabilities may be low. Since the limitations of currently existing intelligence preclude the reconciliation of the traffic estimates with the capability estimates, the CIA member is prepared to accept the estimates of through capability, with the estimated margin of error contained in this report, as the best existing estimate. - Approved For Release 2004/01/2tCIA-RDP92B01090R000300020032-8 Approved For Release 2004/01/2,0 : CIA.7RDP921301090R000300020032-8 EC. Short Over-all Description of Lines and Areas Served A. Geographic Description The Trans-Siberian Railroad, for purposes of this study, is considered as being the double track railroad line running from Omsk to Vladivostok. It traverses a plain frau Omsk to Novosibirsk and generally mountainous or hilly areas from LovosibirSk to Vladivostok. Most of the large cities served by the Trans-Siberian railroad, Omsk, leovosibirsks Krasnoyarsk, Irkutsk, Ulan Ude, Khobarovsk, and Vladivostok, are situated at transshipment points where the railroad crosses or meets navigable waterways, the areas only other medium of large-scale transport. Hanufacturing, and the exploitation of mineral and lumber resources are the most important aspects of the economy along the rail- road. and are the major producers of freight traffie. B. Technical Characteristics of the Line The Trans-Siberian railroad is a double-tracked, 5+ 0" gage line having light rail on its eastern portions. Rail weighing 101 pounds per yard is found between Omsk and Achinsk and rail weighing 77 pounds per yard pre- dominates between Achinsk and Vladivostok. The Omsk-Novosibirsk and Irkutsk- Slyudyanka sectors are now electrified. Most of the yards are relatively small although there are a few large classification yards at major cities. Steam locomotive repair facilities are spaced between 50 and 110 miles apart and are also relatively small. There is automatic block signaling from Omsk to Achinek (750 miles) and on the Irkutsk to Slyudyanka by-pass line (79 miles); for the purposes of this study, semi-automatic block signalling is assumed to be in operation from Achinsk to Irkutsk (790 miles); and station to station block fro Slyudyanka to Vladivostok. (2,553 miles.) C. Equipment Electric and steam locomotives are employed on the Omsk-NoVosibirsk sector and electric locomotives from Irkutsk to Slyudyanka; steam locomotives are used on the remaining sectors, with some heavier types used between Novosibirsk and Achinsk on the heavier rail. Freight cars in use are repre- sentative of the Soviet freight car park. D. Traffic Existing traffic on the line includes a very heavy movement of Kuznets coal westbound from Novosibirsk to Omsk, and much smaller but still significant tonnages moving both west and east from Gheremkhovos east from Rayehikhinsks and west from the coal fields east of Vladivostok. Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Other major movements include westbound &mete coke front Novosibirsk to Omsk* westbound timber and lumber beginning approximately at Petrovskiy- Zavod and increasing in volume westward to Novosibirsk where they drop off significantly; and agricultural* animal, and mineral products* particularly imports from China which reach the line at Tarskiy and flow westward to Omsk. The major eastbound commodity other than oos.1 on certain sections is POL which moves from Cloak through to the Far Baste Ferrous ores move east from Omsk to Novosibirsk for the Kusnets basin and ferrous products and scrap move in both directions in varying amounts on different sections; agricultural products move east from Omsk to the Far East. Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Next 2 Page(s) In Document Exempt Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table 2 TRANS-5ILERIA1 RAILROAD Estimated Line Ca. bilit for Fre t Trains based on Line Sector Omsk-Novosibirsk Novoeibirsk.mAchinsk Achinsk..Tayshet Tayshet-Irkutsk I Irkutsk L.Slyudyanka Slyudyanka..Zaudinskiy Zaudinskiy-Tarskiy Tarskip.Skovorodine Skovorodino..Arkhara Arkhara.Khabarovsk I Khabarovsk I-Vladivostok Msx.Distance Between Sig- nals or block Stations (Niles) 3.6 24/ 3.6 2/ 5.0 W 7.2 y 3.6 2/ 10.6 13.1 14.9 13.1 10,6 909 Speed of Freight Train/ (Nn) Running Time (Ianutes) 19.3 11,2 17.2 12.6 15.9 18.9 15.1 28.6 15.6 13.9 17.1 40.7 15.3 51.3 14.8 60.4 16.6 47.4 15.1 42.1 16.6 35.9 Capability Reduced of line Capability (TEWPD) of line 3/ TEWPD) 128 102 114 91 76 61 50 40 103 82 35W 28 28/ 214 30 1/ 140 22.51 19.5/ 214W 27W 32W 1../ Based on index numbers, obtained from 1956 timetable running speed (excluding scheduled stops) for the fastest passenger train, applied to a calculated 17.2 mph freight train speed for the Novosibirk"Achinak sector (17.2 mph st 100). This 17.2 mph speed includes acceleration and braking factors for coal and water stops and breakdowns along the line. These index numbers, given in order for each sector listed, are as follows: 112, 100, 93, 88, 91, 99, 89, 86, 96, 88, 96. Time required for watering, coaling, inspecting and other delays was not considered in the calculation of this speed since such delay time is in.. curred at stations and does not affect line capability. 2/ Capability reduced by 20 percent to provide for unforseen delays occurring on the line between stations. 1/ Minimum distance between trains, based on maximum distance between automatic block sig. nals of 1.8 miles, assuming trains maintain running speed on green aspect. Half the distance of the maximum station interval (assumed for purpose of this problem for semi...automatic block signals). V From Slyudyanka to Vladivostok the capability was calculated on the use of absolute station to station block. If these sectors were operated under permissive block the capability figures would be significantly higher. For the purposes of this study, these sectors are assumed to be operated under permissive blook conditional and therefore signals do not limit line capability. Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 ? Approved For Release 2004/01/20,: CIA-RDP92601090R000300020032-8 Capability of Yards Table 3 shows data on type, size and capability of freight yards on the Trans-Siberian railroade To aid in Making the capability estimate, tracks in major yards were allocated to classification and relay functions to obtain maximum traffic through them, The figures on number of tracks in yards include those estimated to be available for relay and classification. It should be noted that in actual practice some of this trackage would also have to be used for local freight. At a number of points it is possible that the figures shown may not include ail the freight yard trackage., Capability of these yards was computed by assuming that each track could hold one train, whether single or double-headed, and by applying a daily turnover factor of 3 for classification tracks and 6 for relay tracks. This means that under maximum operation the average delay of a train is 8 hours when it undergoes classification and 4 hours when it is relayed. This includes the effects of train delve and the fact that not All tracks would be occupied by trains, since complete occupance of all tracks would preclude removal and storage of damaged cars or cars with freight destined for the region served by the yard in question, 3. Capability of Freight Locomotive Repair Facilities Table 4 shows capability of steam locomotive repair facilities on the Trans-Siberian Railroad for freight locomotives e The number of stalls in sheds and roundhouses was estimated Deductions for branch lines were made on the basis of locomotive stall require- ments to support a minimum essential level of traffic on these lines. Deduce tions of switch locomotives were based on the estimated relative levels of traffic which would be handled at the yards, The remaining stalls available for main line locomotives at each city were then allotted for movement in two directions from that city in such a way as to obtain an approximately equal number of stale between succeeding cities, The capability of stens to support trains between each two succeeding cities was dete-mined by utilizing 4 cLoily stall turnover factor of 3.4 on all sectors except from Tarskiy to Khabarovsk 25X1 SeE-CeReEeT -15- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 SZeC-R-E-T where a turnover factor of 2.0 was used for reasons stated in footnote 3 on Table 4. The turnover factor of 3.4 implies that each locomotive spends an average of 7 hours a day in sheds for servicing, running repairs, boiler washing, and medium repairs (but excluding capital repairs), or that an average of 29 percent of a locomotive's time is spent in sheds. The turnover factor of 200 implies that each locomotive spends an averaLe of 12 hours a day in sheds, or that an average of 50 percent of its time is spent in sheds. The average of 7 and 12 hours a day spent in sheds is normally divided between the home depot and turnaround shed, with a minimum time per locomotive at any one shed of one hour. Locomotive depots were given the capability of balancing motive power; i.e., they were assumed to be capable of dispatching locomotives in either direction. Turnaround points were not given this capability of balancing motive power, but were assigned the function of dispatching engines only back to the engine's home depot. At turnaround points the stalls were divided equally between the two directions in practically all instances, It is assumed that, under capability operation, all repair plants on the Trans-Siberian would be used solely for the heavy repair of locomotives on the main and branch lines, and possibly also for some medium repair of branch line locomotives* Medium repairs of locomotives operating on the main line of the Trans-Siberian are assumed to be performed in locomotive depots? It is estimated that between 20 and 40 locomotives would be under capital repair at all times to operate the line at its capability. Known repair plants at Omsk, Novosibirsk, Krasnoyarsk, Ulan Ude and Voroshilov are able to handle an estimated 24 locomotives in their ereating shops simultaneously. Therefore, capital repair capability, although fully utilized, would not limit operation. 40 Sector Capability for Freight Trains Table 5 shows the capability of each sector of the Trans-Siberian railroad, in terms of freight trains each way per day. The capability figures represent the number of trains which would be supported by the facility (loco. motive repair facility, or yard) which has the lowest capability. The final -le-- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 columns show sector capability for freight trains EWPD after deduction from total sector capabilityceanestimated two single-headed freight trains NWPD for railroad supplies (coal, ties, ballast) and work trains. 5. Method of Computing Total Through Capability for Freight Traffic Table 6 indicates the capability of each division to move freight trains and their total maximum net tonnaLe each way per day. To derive total through capability for freight traffic, the following procedure is recom- mended: a. Subtract from this capability shown in Table 6 essential tonnage to sustain the local areas along the line, i.e., essential intra divisional traffic, essential originating traffic going to points outside the limits of the division, and essential terminating traffic from points outside the division limits. b. The remainder is through freight traffic capability for each division. c, From this figure must be subtracted essential passenger traf- fic in equivalent freight trains. (1) Generally speaking a passenger locomotive should produce about twice the daily miles of a locomotive pulling freight trains of the size envisioned in this study. Therefore, the motive power requirements for pas- senger trains are assumed to be about 1/2 that of freight trains, i.e., 2 passenger trains can be moved by displacing 1 freight train when motive power is the limiting factor., (2) Yard capabilities are not significantly affected by pas- senger trains. In large cities where the concentration of passenger coaches is heavy specialized passenger terminals are used. d. The capability remaining after the equivalent tonnages of these trains (if any) have been deducted, is the actual through freight capability of each division. e. The through freight capability of any sector cannot exceed its limiting division. f. The through freight capability of the line cannot exceed the limiting sector. S-N-C-R-E- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 20QterE2Tktd-RDP92601090R000300020032-8 Table 3 TRANS-SIBERIAN RAILROAD Estimated Capability Based on Yards Sector Yard Estimated No of Relay andior, Class c TracksV Turnover Factor per Track Total Trains per Day TEWPD For Sector Omsk-Novosibirsk Omsig Class. 18 3 Omsk Relay 12 6 126 Tatarskaya Class, 2 3 Tatarikaya Relay 14 6 90 45 Barabinsk Belay 16 6 96 Chnlymskaya7j Relay 16 6 96 Novosibirekt Class, 40 3 Novosibirsk Relay 35 6 330 Novosibirsk-Achinak Bolotnaya Tayea ni, .11 6 6 3 66 4/ Tayea Relay 9 6 72 314/ Mariinak Relay 15 6 90 Boectol Relay 14 6 84 Achinsk-Tayshet Chernorechenskaya Relay 16 6 96 Krasnoyarsk Class, 15 3 Krasnoyarsk Relay 10 6 105 Klyukwanays Relay 16 6 96 39 Ilanskaya Relay 13 6 78 Tayshet Class. 3 3 Tayshet Relay 13 6 87 Taysbet.Irkstek Niznneudinsk Relay 13 6 78 Tulun Relay 11 6 66 33 Zia Belay 18 6 108 Cheremkbovo Relay 20 6 120 Irkutsk Class* 16 3 Irkutsk Relay 12 6 120 Irkutek-Slyudyanka Slyudyanka Raley 11 6 66 33 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 14-2-1141, Table 3 (Continued) Estimated No. of Relay anal or Class. Trackafd Turnover Factor per Track Total Trains per Day TEWPD For Sector Slyudyanka-Zaudinsidy Nysovaya Relay 1.5 6 90 33 Ulan Ude Class. 15 3 Ulan Ude Relay 10 6 105 Zaudinskly-Tarskisv Petrovskly Zavod Kbilok Rolm' Relay 12 12 6 6 72 72 Hogs= Relay 13 6 78 36 Chita Classo 15 3 Chita Relay 10 6 105 Kazymelcsyvt Relay 12 6 72 Tarskiy-Skovorodino Shia& Relay 1.3 6 78 ICaganovich Relay 12 6 Zilavo Relay 16 6 ,72 Ksenyevkaya Relay 20 6 120 33 Nogocha Relay 11t 6 Amager Relay 11 6 66 Yerofey Pavlovieh Relay 13 6 78 1Jrusba Relay 13 6 78 Skavorodino Relay 13 6 SkoverodinowAskbara Taldan Relay 6 Magdmaachi Relay 9 6 24. Usbenum Relay 13 6 78 Shisanovskaya Relay 12 6 72 Svoboduy Relay 32 6 72 27 Kuybyshevka.Vostocimaya Glass 0 10 3 Kuybyshervios-Yostocbnaya Relay 10 6 90 Zavitaya Relay 12 6 72 Bureya Relay 10 6 bo Arkbara Relay 10 6 6o Arkbara.Kbabarovsk Obluchye Relay 10 6 6o Bira Relay 7 6 lie 21 In (Smidovich) Relay g 6 KhabarcZproved For Release Y1/20 : eir CIA-RDP92130109/000300020032-8 3 6 S-E-C-R.E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table 3 (Continued) Seotor Tara Estimated No, of Relay and/or, Claes. Tracked -, Turnover ranter per Track 6 6 6 6 Total Trains per Dar Its Lit riai TEWPD Per Sector latabarovek-Vladivostok Vyaseemskaya Bildn Guberovo Rhino Relay Relay Relay MAY 9 9 Tevgenyevka Relay 11 6 66 211. Voroshilav Class. 12 3 Voroshilov Relay 6 04 Pervaya Reohke, (Vladivostok) Class. Baler 20 3 63 Approved For Release 20arkarge:t1R-RDP921301090R000300020032-8 Sector Approved For Release 2094192WIRA-RDP92B01090R000300020032-8 Table 4 TRANS-SIBERIAN RAILROAD Estimated qapaz112.,z.ty_lbased on l'iltjmIAocornotive Repair Facilities Olt"1-3 Stalls Deducted For 0 o o -..--...? _ _ Id 0 o- p o p el to e4 te, 3"'' El 1.-0 i-.? o x 44' m V o et rdi IA' 0 il -=? r; Eq I-I 11 a 0 HI el 1.-i to 0 0 t.. .cat't=3' nr *.13.4 F 2 g ? F 0 - = )--, 0 .,-,. )-? 4 m t-4 m P m i?-ft 0 a c+ 4-4 4 t-40 ?-s I I-. *1 er L-1 00 P. ei- o m P g el --'' P.O pa P. 0' m m 4 a ? TEWPD Which Could be TEWFD for Sector Whttl Supported by These Could be Supnorted by Locomotives Limitinf Sheds_ as P r_r m 14* P 0 m -msk7=Novosibirsk Omsk Tatarskaya Barabinsk Chulymskaya Novosibirsk-Achinsk Novosibirsk A ninsk-Tayshet Bol otnoya TaYga Mariinsk Bogotol Chernorechenskaya Krasnoyarsk 38 6 22 32 is 10 12 12 8 24 20 4 4 0 0 1 3 1 11 2 1 1 0 5 14 4 21 7 20 13 /2 U. 16 14 2 2 21 3,5 3.5 120 Sc,0 65 6_5 6J) 6J) 5,5 5.5 U. 3.5 3,5 16 3 54 JO 53 49 43 39 68 76 54 115 45 53 49 43 39 34 14 3s 38 Approved For Release 2904/t1+30*,@1A-RDP92B01090R000300020032-8 38 t4ctor Approved For Release 200/pi:9A-RDP921301090R000300020032-8 Table 4 (Continued) TRANS-SIBERIAN RAILROAD Yitimated gsm3.1_)ilL,ty_basedoilt Steam Locomotive Re air Facilities lial-at-EaElitY0J r 14 Stalls Deducted For o o0 g 0 7 0 P t4 td t-4O0i-4 1 'CS 0 i?6 4 0 00 0 0 0 '10 m p c+X g e+ ?= 0 0 0 ri. g w. 0 i a . c 9 1-4 4 co .... IYIUH'i ..... O 0 el?? 0 cs? ir, TWPD Which Could be TEWPD for Sector Whi:: o 1 p o 14' t'kCould be Supported by C- o pa u ported by These 1... cs. 1--. .. wo o Sp Locomotives Limitinp Sheds ra? o o m ct ti 0. ? 0 N ,t 4--. ri 0 02 70 14. En CD ia? tq. 4 '4 a (:): 0 0 * . - g c+ P. c4- 0 o o A.) -P" P.O a a I-, P. m )3 4111?11111?1.10???? Klyukvennaya 6 0 0 6 3 54 Ilanskara 26 1 1 24 24 5 108 54 Tayshet-Irkutsk Tayshet 12 1 1 10 5 45 Nizhneudinsk 15 1 1 1 6 16 90 5.5 45 Tulun 12 0 1 11 5.5 58 Zima 0 1 23 23 116 4 Cheremkhovo 14 2 11 5.5 58 5.5 10 53 53 Irkutsk-Slyudyanka Irkutsk 32 4 8 20 10 2 41 41 141 Slyudyankw-Zaudinskiy Slyudyanka Slyudyanka 12 1 10 8 4 41 41 Mysovaya 12 0 11 7 5 41 41 Dian Ude 18 2 6 10 5 4 5 39 If 39 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-)T Sector 2yhe of_Facilitz tc": '1;1 00 0 a 0 S-N-C-R-B-T Approved For Release 2004701720 f-C17-RDP92B01090R000300020032-8 Table 4 (Continued) TRANS-Sr/MUM RAILROAD Rs ted Ca abi1itr based on Steam Facilities Pz/ t'1.0 M 0 0 m et P0 cp. 10 (13 c+ ? 4 P M 01 11 0 0 Stalls Deducted For t-4 to t-q p.,.l10 4 g 0 0 0 00 03 0" g TEM Which Could be Supported by These . Locomotives cz t.g P.O ?=r3. TXWPD for Sector Whi, Could be Supported b; tinShed 02 134 *MOOD AmenlinimisieWt Laudinekiy-Tarskiy ow* Petrovakiy Zavod 10 0 9 39 14,5 64 Khilok 28 0 1. 21 2? 128 6 64 Mogzon 12 0 12 6 65 Chita 36 4 24 24 131 2/ 65 Karymskaya 24 6 17 Tarskiy-Skovorodino 33 18 0 1 17 17 66/ 7,5 33 Kaganovicha 16 2 15 7,5 42 ;? Zilovo 32 0 2 30 30 853/ 5 42 Rseuyevkaya 10 0 10 5 32 29 Mogocho 22 0 21 63 3/ 5-5 32 Amazar 12 0 1 11 55 28 Yerofey Pavlovich Is 0 1 11 17 563/ 5.5 26 Urusha .1.2 0 11 5.5 26 ..4ovorodino-Arkhara Likovorodino 20 2 17 17 563/ Taldan fkpprovedForWlease2004/0/20:CIA-RDM2B01090K?6(7300020032-8 2s 32 Approved For Release 20,0A0Z,12}p_i9itA-RDP92B01090R000300020032-8 Table 4 (Continued) TRANS -SIBMRIAN RAILROAD Esti ted CaDab1it based on Frei ht Steam Locomotive Repair Facilities 12S.42JUCD 0 0 Stalls Deducted For 0 0 0 1---io 0 0 .-* ? r TPD Which Could be TEWPD for Sector Wh': Pioil o PI P 4 0 4 P O 1?' Po, c. 1..4 Ili '1:1 10; 0 Suprorted by These io t-4 t..4 to o o riot t4 in Could be Supported 1 8 0 0 ,..., . ...,. p-. n 0 .. n o o 0 t'''' 0 Xe. :: t?' O PC 0 ea t-b 9 s-, )-,- 0 P m 1 o ti Locomotives Limitine Sheds 00o p o rp. ..z.-1 o o 0c1- ).,. 0 o ?.1 cr a ei va a Cle g-,. g 0 o - n 0 P? 0 0 Ob CD i.-4 0 or cf p,a4 .4 1.1 a 4 1, El ic37' t?' 4 a) 0 0' 0 W t402 A 4 4 1?a 0 P I..'" 0 0 '0 0 0 4 0 ,.., t-. D, 0 0- trz m ,.... P 0 0 '0' 0. 01 o ea 0. ..,. ci. p.m 7%.3 0 0 ....'":' P. 0 0, 0 0 P. Oli P. 0 O i?? P. 40 'lb 1?-? P. CD 0-' 0 4 0 . ? . . -Abarovsk Magdagachi Ushumun Shimanovskaia Svobodoy oh 10 21- Kuybyshevka- 10 Vostochnaya Zavitays 18 Bureya 6 0 23 653j 4 4 1 23 23 54 3/ 0 0 2 3 5 5 1 1 16 16 5g 31 1 5 5 3 Arkhara 6 0 0 6 Obluche 211 Bira 8 In(Smidovich) In(Smidovich)24 1. 1 1 1 3 22 22 57 2/ 3,5 3-5 19 19 61 3/ 8 -Vladivostok Khabarovsk Khabarovsk 30 6 8 16 Bikin 8 4. Vyazemskaya 10 1 1 4 12 Approved FOr Release 2004/01/20 : CIAL-FDP92B01990R00030002(6632-8 14-5 SCR -T 32 27 27 29 29 29 29 29 29 30 30 53 33 29 Sector Approved For Release 20d44112,2tfIS-RDP921301090R000300020032-8 Table 4 (Continued) TRARS-SIMMIAN RAILROAD Astilyytted_gsgAllly based on Freirht Steam Locomotive Repair Facilities Type of Facility, m o c W f4 +3 '4. cs c+ 10 t-4 i'd t-f P 0 P 0 0 0 0 ti 0 14.4 n 80 00 0 P o c+ o 80 c+4 Et cl Oe* p 0 cr % A 0-0 go 01 0, 0 os O +04 t al la Deducted For L-4 O g O c-0 - 0 0' Guberovo Ruzhino Yevgenyevka Voroshilov Pervaya Rechka Vladivostok 19 10 12 4 8 naserViia...* CC t.t0 0 et TEWPD Which Could be TEWPD for Sector Whid Supported by These Could be Supported by Locomotives Limi t tug Sheds 1 9 1 17 1 5 2 lj 6 4.5 17 2., 5 2.5 6.5 31 31 6.5 8 49 49 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For ReleasrAggt2p-: CIA-RDP92601090R000300020032-8 Table 5 TRANS-SrBERIAN RAILROAD Sector Length (Miles), Sector Ca,allalg_s Locomotive Yard Repair Capability Capability ZWPII TEWPD Frei ht Trixi.tne k TotalAfter Capability in Freight Trains EWPD Deduction fo Total Sector Capability Single- headed ff31717g7 headed Li Single- headed Omsk:-Bovosibirsk 390 45 1455/ 45 5/ 45 14/ 0 O 1435/ Novosibirek-Achinsk 360 54 42 34 34 0 T? Achinsk-Tayshet 374 3g 46 3S 35 0 36 Tayshet-Irkutsk 416 45 33 33 21 12 19 Irkutsk-Slyudymnka 79 41 Ili 33 33 23W IOW 21W Siyudyanka-Zaudinekly 211 41 33 33 25 8 23 Zaudinskiy-Tarskiy 414 39 36 36 33 3 31 Tarskiy-SkovorodinO 615 2$ 33 28 28 o 26 Sitovorodinfrlalthara 482 56 27 27 25 Ark1ara4habarovak 274 29 25 15 16 IL Khabarovsk-Fladivostok 47g 33 31: 10 24 Railroad! Etiett2W Double headed 0 0 12 '?W 3 .1?011??????111?MINIMMONIMII. 1/ Based on the limiting facility (locomotive repair or yard). within the limiting division, gj Based on optimum USA of locomotives,, eDeduction made of two single-headed trains, for railroad operation and maintenance, Based on steam locomotive operation. r.Based on electric operation, yard capability to handle only the single-headed heavier trains, and limited availability of electric locomotives, / capability Capability of this electrified section assumed to be roughly equivalent to the tonnage capability immediately east of it. S-E-G-R-E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Sector Diviston Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 13-11-C-R-E-T Table 6 TRANS-SIBERIAN RAILROAD Division Capability.122/2LLInrs Turnaround Point aurugsmommeern OmskrNovosibirsk Omsk Barabinsk innw.m.alSION????? Tatarskaya Locomotive Repair Capability AWPD 54 11/ 45 45 Chulymskaya 53 Novosibirsk-Achinsk Novosibirsk 49 Bolotnaya 43 ;$:.? Taiga 39 Mariinsk Bogotol 311 Achinsk-Tayshet Chernorechenskaya Krasnoyarsk Klyukvennaya ilanskaya 544 514. Tayshet -Irkutsk Tayshet 45 Yard Capability TAWPD Total Divisf,on Capability - 1/ Capability ToteC. d_ Double- headed in Freight Trains EVPD After Deduction for RailM14-222110t tingle- headed Single- headed Double- headed Net tonnage SOD 13,19041/10.6.L. 45 V 45 O 43 0 99.760 51 45 45 Lij 36 9 34 9 68.550 i 4455J 45 o 43 n 99a60 5J 45 45 lil 45 43 o 5g.695 ?V/ 48 .// 45 45 O 0 43 43 o o 99760 5/ 5a,695 Ey 48 5/ 45 o 46 o 106,72o 48 4.8 43 5 41 5 6a?265 35 35 21 14 19 14 54,780 31 31 19 12 17 12 47.00 36 36 33 3 5: 7 .1 451.30 42 3 ? 34 O 3P o 396a0 42 34 0 32 o 39Mo 448 3a 3a 0 36 o 4051010 43 3g 38 o 36 0 110.500 39 39 24 15 22 15 55aP00 39 39 25 15 22 15 55200 39 39 33 6 31 6 42,015 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 10p401/2A4CIA-RDP92B01090R000300020032-8 Sector Division Table 6 (continued) Locomotive Yard Turnaround Repair Capability Point Capability TRWPD EVPD Total Division Capability Capability in Freight Trains EWPD Total 21 After Deduction for Railroad Frele Single- headed Double - headed Single- Double- Net tonnage headed headed EWPD Nizhneudinsk 45 33 33 21 12 19 12 40,815 Minn 58 33 33 8 25 6 25 510280 Zima 58 54 54 50 4 48 4 55480 ...nereMkhovo 53 6o 53 53 o 51 o 51.255 Irkutsk-Slyudyanka Irkutsk 41 y 33 33 23 1/ lo ij 21 10 41,000 // Slyudytuika-Zaudinekty Slyudyanka 41 33 33 25 8 73 8 40,635 Mysovaya _61/ 41 45 41 41 o 39 o 42,315 Zaudinskiy-Tarskiy Ulan Ude 39 36 36 33 3 31 3 36,215 Petrovskiy Zavod 64 36 36 8 78 6 28 47,590 Khilok 64 39 39 14 25 12 25 49,300 Mogzon 65 39 39 14 25 12 25 49,300 Chita r.;.; ,.., 36 36 7 29 5 29 148,0115,o45 Karymskaya Tarskiy-Skovorodino 33 36 33 33 o 31 o 36,270 Shilka 33 36 33 33 co 31 o 36,270 Kaganovicha 42 36 36 30 6 pg 6 45,420 Zilovo 42 48 42 42 o 40 o 46,800 Ksenyevskaya 32 42 32 32 0 30 o 35.100 Mogocha 32 33 32 32 o 30 0 35,100 Approved For Release 2004/%140c:_pk,FIDP92B01090R000300020032-8 Sector Division Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 SCRIT Table 6 (Continued.) Turnaround Point Locomotive Repair Capability NWPD Yard Total Capability Division TZWPD Capabliity 1/ Capability in Freight Trains Total 21_ After Deduction for - Double- Single- Double headed headed Single - headed headed UPD Railroad Freiel Net tonnage SWPD arovorodino-Arkhara Arkhara-Khabarovsk Khabarovsk-Vladivostok -252121211122212112.1?1?21.2.222?2418. asandosnamonems??????????ftwe?, Yerofey-Pavlovich Skovorodino Magdagachi Shimanovskaya Mazar Urosha Taldan Ustramon Svobodny Kuybshevka-Vostochnaya Arkhara Obluche Khabarovsk Bira In (smidovich) 6/ Vyazemakaya 28 28 2,g 2.4 32 32 27 27 29 29 29 29 30 30 33 33 39 39 33 27 27 36 39- 30 21 24 24 220 WIN 226 Mai 28 28 28 28 28 2$ 2g 2' 27 22 27 22 27 27 27 2/ 29 29 29 29 29 29 erl 21+ I) 3.2 17 O 26 O 26 o 26 26 5 20 5 5 20 5 0 0 O 25 o 2.5 21 0 27 0 O 27 1; 0 9 -9 6 16 6 1 7 5 IT $5 13 9 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 30.42o 30,420 J0.420 31.460 35.050 35,050 30,250 30.250 32,6in 32067o 33.750 31,75) 32452 33,.500 36.405 29,885 Sector Division Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 9-8-0:11T Table 6 (Continued) Locomotive Yard Total Turnaround Repair Capability Division Point Capability TEM CapaWity ENPD Capability in Freight Trains EVPD Total .1L After_Deduction for Railroad Freight 3. Single- Double- headed headed Single- Double- Net tonnage headed headed WPD Bikin n 27 2? 21 16 19 6 30,515 Ouberovo ?41 24 24 7 17 5 17 36,1405 Ruzhino 41. 24 24 7 17 5 11 36.405 Yevgenvevka 31 35 X 31 0 29 0 29.7? Voroshilov 49 30 30 11 19 9 19 44j85 Vladivostok 1/ Based on limiting facility (locomotive repair or yard), V Based on optimum use of locomotives. 3/ Deduction made of two single-headed trains for railroad operation and maintenance, 14/ Based on steam locomotive operation., 5/ Based on electric operation? yard capability to handle only the single-headed heavier trains? and limited availability of electric locomotives, ?I The Slyudyanka-Mysovaya section of the Irkutsk Division and the Bira-In section of the Ob/ache Division are assumed to operate like an independent division,: 7/ Capability of this electrified section assumed to be roughly equivalent to the tonnage capability immediate/y east of it Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T De Capability in Tons per Train 1. Maximum Gross Train Tonnage Capability of the Trans-Siberian in terms of maximum train tonnage is based on the following assumptions: (1) That all trains will carry maximum tonnage0 ilaximum tonnrce on each section is determined on the basis of loco- motive types in use, and the maximum grade. (2) That wherever necessary trains will be double-headed; that in sections with maximum grades trains will be run double-headed and with pusher, if necessary. (3) That locomotives used will be of the same types as those now known to be in use, as indicated in Table 1. (4) That yards and sidings are capable of holding either single-headed or double-headed trains; i.e., yard track lengths do not limit train tonnage except under electrified operation on the Omsk-Novosibirsk sector, where only single-headed trains can be handled. Table 7 shows the maximum gross freight train tonnage capability on each sector of the Trans-Siberian railroad, based on the ruling grade and the representative locomotive type in use on the sector. These tonnages are given for the period April through October, during which full train tonnage can be carried, and November through March, during which train tonnage must be reduced due to low temperatures. The final section of the table shows yearly average tonnage. Tonnage reductions for the period November through Larch were calculated on the basis of the mean daily minimum temperature for a single town within each sector, using the reduction factors shown in the footnote. 2. Maximum Net Train Tonnage Table 8 shows the average maximum net freight train tonnage capa- bility, derived from gross freight train tonnages shown in Table 7. The net train tonnages were calculated on the basis of a 65 percent weighted average ratio of net to gross freight train tonnage, Calculations were performed for sections where traffic was representative for several sections, or was unique to one section. In each case, the estimated percentage distribution of 1955 eastbound freight traffic by commodity (CIA Contribution to EIC-R9-S1? Trans. Siberian Railroad Traffic, 1955) was utilized as the basis for the calculation. The net tonnage per car, of each commodity type, taken from Table 20, was weighted on the basis of this percentae distribution. Similarly, the tare weight per car, taken from Table 19, was weighted on the basis of the S-E-C-R-E-T Approved For Release 2004/01/2B1rCIA-RDP921301090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 percenta_e distribution of each commodity carried in each type of care The ratio of weighted net tannage to weighted gross car weight (tare plus net tonnage) ranged between 62,9 percent on the Omsk*Novosibirek sector and 64,6 percent on the Irkutsk-Ulan Ude sector. An average ratio of net to gross of 65 percent was used for reducing gross to net train loads. It should be stressed that this ratio applies only when all cars in a train are loaded; empty cars in a train were not =adored in this study, Approved For Release 2004/0116-: CIA-RDP92601090R000300020032-8 Sector Approved For ReleasilMiTat: CIA-RDP92601090R000300020032-8 Table 7 TRAU2-SIBNRIA1 RAILROAD Kaximum Grose Frei ht Train Tonna Ca abilit'iector an RtenresPEt):IUM-V-211:1111"1._a---WIEWMILIA=Zilt-:-!210 Representative Ruling Grade Locomotive Eastbound Tyre 1/ Gross Single- Double- Double-headed headed 2/ headed 3/ with rueher12/ Groes Gross Train Tonnage-ov through Rex. Train Tonnege-Yearly 4verege Single- Double- Double-headed ingle- 5(1010- Double-headed headed headed 3/ with rusher V heeded ,?./ headed 3/ with nusher V Omsk-ilovosibirsk Novosibirsk-Achinsk Achinsk-Tayseet Tayshet-Irkutsk I Irkutsk I-Slyudyanka Slyudyanka-Zaudinskiy 43 Zaudinskiy-Tarskiy Tarskiy-Skovorodino Skovorodino-Arkhara Arkhara-Khabarovek I Khabarovsk I-Vladivoetok 0.8 0,9 1,0 1,0 2.0 8./ 0.9 1.74 008 0.8 0.8 1.0 VL-22m Yea VL-22m Yea Yea Yea Yea Yea 3,755 V 2.005 1,825 1,655 1,635 V 1,820 955 2,020 2,020 2,070 1,655 6.760 3,610 3,280 2,980 2,945 3,280 1,720 3,640 3,640 3,640 2,930 aS031, OP 0 WRIO011 01111401. 2,485 0?11M el= 611, alba. 3.305 1,765 1,605 1,390 1.410 1.460 765 1.575 1.615 1,780 1.455 5.945 3,175 2,885 2,505 2,535 2,630 1.375 2.835 2,910 3,200 2,625 0 0 ????? 0.??? 0.0 ??????? 1,990 ?0.20 et00 12.??? 3,565 2,100 1,905 1.730 1,545 1,540 1.670 875 1,800 1.855 1.9'n 1,575 9./ 7.130 3,780 9/ 3,430 3,120 2.780 3,080 3,005 1.575 3,2h0 3.335 3.455 2,830 4a??? awe. W.* 111?1???? Mears esImisir 1/ Representative locomotive used ie that which is estimated to comrrise a large percentage of freight locomotive onerating in the particular sector, and, in the case of the L locomotive, to an!'roximate the average tractive effort of the locomotive used. Based on formula: Tractive effort 10 M hr? Weight of engine and tnnder in short tons. 75-7711ing grade in ' e-47 Curve resistance not included in formula since grades are assumed to be comnensated for curvature, The figure h.? repreeente rolling resietance of cars averaging 50 tons gross weight at 10 m.n.h, Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-8-0-B-T-T Table 7 (Continued) 2/ Based on 180 percent of single-headed tonnage except for electric locomotive vectors which are based on 200 percent. 12/ Based on 260 percent of single-headed tonnage', V Based on temperature reduction factors used by the Canadian Pacific RR, applied to the amen of the mean dallyalaimem temperatures or the fiv* for six months when this temperature is below 15? 1r, Temperatures used are those available for a single tom within the seater. 25X6 Canadian Pacific RR Temperature Seduction Factors: Above 150 7 15 to 10 above 9 to 5 above 4 to 1 above Zero to 4 'below 5 to 9 below 10 to 14 belw 15 to 19 below 20 to 24 below 25 to 30 below More than 30 below ir_21211.t 0 5 9 12 16 20 22 25 30 9J Based on L (steam) locomotive,, S-411-C-R7-M-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table 8 Trans-Siberian Railroad . Maximum Net Freight Train Tonnage Capability by Sector (In Short Tont') Double.. Sector Headed Headed Omsk-Novosibirsk 23201J 1365 Novosibirsk,.Achinsk 1210 Achinsk-Tayshet 1125 Tayshet-Irkittsk 1005 Irkutsk..Slyudyanka 1000 V S1yudyanka4audinekiy 1085 Zaudinskiy4arskiy 1025 2/ Tarskiy..Skovorodino 1170 Skovorodino.Arkhara 1210 Arkhara-Khabarovsk I 1250 Khabarovsk I-Vladivostok 1025 46140 21160 y 2230 2030 1810 2000V 1960 1480 2110 2170 2250 1840 2/. Based on the use of the VL-22m electric locomotive, Le Based on steam locomotive operation. Based on the use of a helper steam locomotive over the 1.74 percent graile. S-E-C-R Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-RZ-T II. Over-all Description of the Line and Area Served A. Geographic Description of the Area Along the Line 1. Terrain The diverse topography as well as the great length of the Trans-Siberian Railroad makes it advantageous to treat the terrain in five sections: (1) Omsk - Novosibirsk, (2) Novosibirsk - Krasnoyarsk, (3) Krasnoyarsk - Irkutsk, (4) Irkutsk - Skovorodino, and (5) Skovorodino - Vladivostok. a. Omsk . Novosibirsk (390 miles) The Trans-Siberian Railroad from Omsk to Novosibirsk traverses a predominantly marshy plsin that slopes almost imperceptibly toward the north. The Most prominent relief feature on this section, the bluff-like eastern banks of the principal rivers, the Irtyth and Ob, rise as high as 130 feet. Wide flood plains usually occupy the western side of these streams. Many shallow, saucer-like depressions of different sizes lie along this section of the railroad, and a great number of them are occupied by small ponds, bogs, or temporary pools of water. To avoid these and stretches of marshy ground between them, the railroad roadbed is in many places built on earth eMbankments. b. 7ovosibirsk - Krasnoyarsk (475 miles) Immediately east of "ovosibirsk the Tran&Ziberian Railroad trends northeastward to avoid the abrupt, shelf-like formations of the Kuznetskiy Ala-Tau Range; the line traveres the gently rolling northern foothills of this ranre to Krasnoyarsk. The route utilizes many low saddles and passes tbrourh the dominantly birch forests of this upland, which is much more densely forested than the Omsk-Eovosibirsk section. Three principal streams, the Tom', Kiya, and Chulym, are crossed by major bridges. These rivers are in fairly deep and vide valleys that in some areas are as much as 500 feet below the elevation of the surrounding terrain, causing the railroad to meander to surmount these local changes in elevation. After crossing the Kemchug River, a tributary of the Chulym, the railroad descends through the foothills to Krasnoyarsk, situated on both banks of the broad flood plain of the Yenisey River. c. Krasnorlisk - Irkutsk (675 miles) The railroad from Krasnoyarsk to Irkutsk crosses an area of billy plateau blocks, low domes, basins, ahd deep river valleys. !lost of the SEC-RET Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 -36- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 area is covered by a dense coniferous ''crest, dominantly pine, spruce, and birch. The railroad crosses one watershed after another with a considerable variation in its grade line; elevations reach 508 feet above sea level at Krasnoyarsk, 1.(00 feet near Nizhneudinsk, 1.922 feet south of Zina, and 1.532 feet oeposite Irkutsk. The larger rivers are the Kan, Uda, Tye, and Oka. Tlany small, turbulent mountain streams also drain the area, The railroad traverses the largely cultivated valley of the engara for about 100 miles between Cheremkhovo and Irkutsk. Here, river terraces are as high as 150 feet near the water's edge, but on the broad and comparatively level surface of these terraces, grades are not difficult. Between Krasnoyarsk and Irkutsk permafrost becomes a factor in maintenance of the Trans-Siberian Railroad. . :Alternate freezing and thawing at the surface of these "islands" of permafrost' causes distortion of alinement of the roadbed, soil creep, and caving and buckling of structures. d. Irkutsk - Skovoredino (1319 miles) Between Irkutsk and Ulan-Ude, steep mountain walls, broken in the southwest by the Angara Valley and in the southeast by the Selenga Valley. rise 3,000 to 7,000 feet above the level of Lake Baykal. Shelf-like terraces which cut into the mountains .long the edge of the lake enter these valleys. The old main line along the lake has tunnels, galleries, bridges, and precipitous rock cuts. Recently, a bypass route to detour this section was completed between Irkutsk and Slyudyanka. This new line ascends the irkut valley south of Irkutsk, and then crosses the Primorskiy range over steep grades and through two tunnels to reach Lake Baykal. The maximum Frade on this sector which is 2.0i is the steepest grade to be found now on the railroad, after paralleling the southern shore of the lake, the railroad crosses the open and relatively well-drained southern edge of the Selenga Delta before gradually ascending the steep.edalled Selenpa Valley to Ulan-Ude. From Ulan-Ude to Chita the line crosses the Yablonovyy !fountains utilizine, for the most eart, the grassy Khilok Valley, which is 2 to 10 miles wide. Grades up to 1.74 are encountered as the line rises from Ulan-Ude to the Ehilok Valley and as it descends from this valley to Chita. East of Chita to Skovorodino the railroad negotiates a wild, sparsely populated mountainous area, utilizine mainly the valleys of the Ineoda. Shilka, Kuenga, Belyy Uryum, Cherniy Uryem, and emazar Rivers. This is Approved For Release 200440t/491RDP92B01090R000300020032-8 -31- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 an area characterized by a system of more or less parallel mountain ridges rising more than 1,500 feet above adjacent valleys. Valley bottoms are mostly flat; small lakes, marshes, and small tributary streams are common. Vegetation consists predominantly of coniferous forests with dense, scrubby undergrowth. The railroad structures in this area include a few tunnels and many cuts and bridges. Patches of permafrost cause damage to structures and rail alinement during the thaw periods. e. Skovorodino . Vladivostok (10234 miles) From Skovorodino for a distance of approximately 200 miles southeastward to the Zeya River, the Trans-Siberian Railroad traverses a series of low pines birch, and larch-covered plateau.like blocks between 30 and 60 miles northeast of the marshy floodplain of the upper Amur River. Southeastward from the Zeya River to the foothills of the Bureinskiy Mountains the railroad crosses a lowland characterized by weal defined broad river terraces, interrupted by the Bureya River and the many other small tributaries of the Amur River. The railroad traverses a low pass through the Bureinskty Mountains and then trends eastward over the level to gently rolling lowland of the middle Amur Valley into Khabarovsk. At Khabarovsk the Trans-Siberian Railroad crosses the Amur River. It then turns southward and traverses the Ussuri Valley to the vicinity of Lake Khanka. Paralleling the swampy flood plain of the Ussuri River is a 1 to 20.mile wide terrace which provides an open route utilized by the railroad. This terrace is well drained by small, rapid flowing tributaries of the Ussuri River d Southward from the Ussuri Valley the railroad traverses the lowlands bordering Lake Khanka and its north.flowing tributary, the Lefu River. It then crosses to the lowland of the south-flowing Suyfun River along which swamps and marsh predominated About 20 miles north of Vladivostok the railroad curves eastward and then southward along the coastal plain and across a spur of the Sikhote-Alin? Range to Vladivostok. 2. Climate As shown in the following Ulan, the Trans-Siberian area is characterized by cold Winters, with average temperatures generally below zero in January, and cool summers. with July temperatures averaging between 630F and 690F. Precipitation along the entire line is low, ranging between 12 and 16 inches annually except on the Khabarovsk-Vladivostok sector where the total -38- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T lies between 20 and 24 inches. Snowfall is deepest on the Omsk-rovosibirsk sector, ranging between 10 and 18 inches in December and January and decreases eastward, with 3 to 9 inches between December and Vara in sections east of Omsk. However, railroad tracks are seldom blocked by snow as snow plows are Stationed along the line, and many sectors are protected by snow fences and shelter belts oftrees. As indicated in the following table, the climate along the Omsk-Novosibirsk section is similar to that in Nanitobs. Canada. Novosibirsk has 95 days a year with fog, coming particularly in autumn; Vladivostok has 85 daya, particularly in summer. On most of the remaining sections of the line there are fewer days with fog. Climatic :,1ata for Sectors of the Trans.-Siberian Railroad; jleap lionthly Tepneraturest?F .verage Annual .-21)9.2211-anaga Depth, Sector JpnuarY 41.111 Pracioitption(inches) Period Inches Omsk-rovosibirsk -5 to 0 66 12-15 Dec-Jan 10.18 Vovosibirsk- -1 67 12 Dec-Feb 5-7 Krasnoyarsk Krasnoyarsk-Irkutsk -8 63 14 Dec-mar 5.9 Irkutsk-Skoverodino -17 66 13 Jan-Feb 3 Skovorodino- -19 to 7 64.69 16-24 Jans.Her 3-6 Vladivostok Comparative data for -4 66 20 Nov-Apr 4-9 Winnipeg, Canada 3. Cultural Description a. Major Cities Served Most of the largest cities of the region served by the Trans- Siberian Railroad are situated at transshipment points where the railroad crosses or meets navigable waterways, the area's only other medium for large-scale transport, Within this category are Omsk (505.000 population in 1956) on the Irtysh River, Novosibirsk (731,000) on the Ob'. Krasnoyarsk (328,000) on the Yenisey, Irkutsh (314000) on the migara near Lake Baykal, Ulan-Ude (158,000) on the Selenga, Khabarovsk (230,000) on the Amur, and Vladivostok (265,000) on the Sea of Japan. During the past 25 years each of these cities has been greatly expanded by the establishment of heavy manufacturing .plants, except for Vladivostok where the growth has been caused by naval and military activities. S.E-C-R4E-T -3 9 - Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C -T Short branch lines link the Trans-Siberian Railroad with Tomsk (224,000) on the Tom River, and to Blagoveshchensk (under 100,000) on the upper ;mu.; a longer branch line extends to Komsomollsk (169,000) on the lower ,mur and Sovetskaya Gavan' on the Gulf of Tatary. Several large towns along the route are located in coal mining areas. Among these are Kansk (66,000), Cheremkhovo (124,000), Bukachacha (660000), ArteM (85,000) and Suchan (75.000), Short branch lines extend to the Kuznets. Chernoaorsk, and Raychikhinsk coal basins, In the Kuznets basin, major cities are Stalinsk (347.000). Kemerovo (24,000). and Leninsk-Kusnets (119,000), Smaller urban areas adjoining the railroad are engaged chiefly in lumbering and food production. b, Freight Traffic l'roducers Along the Line The exploitation of mineral and lumber resources and a young but growing manufacturing industry are the most important aspects of the economy along the Trans.Siberian Railroad, and are the major producers of freight traffic. Industry is concentrated in the larger cities, many of which are also administrative, transportation, and economic centers of regional importance. Coal mining is the most important extractive industry and supplies the fuel requirements of nearby railroads and local industry, and also sends large amounts to distant industrial areas. A second major natural resource is lumber, which is shipped primarily to markets in other parts of the U.S.S.R. and therefore receives lonr hauls. Agriculture production along the Trans-Siberian Railroad is keyed mainly to local consumption entailing relatively short rail hauls, (1) Omsk - Novosibirsk Aside from major industrial developments at Omsk and Novosibirsk, the economy along this segment of the railroad is primarily agricultural, with emphasis on dairying and wheat production which provide the basis for flour milling and meat packing industries in agricultural settlements along the railroad, notably Tatarsk, Barabinsk, Kuybyshev, Kargat0 and Chulum. Grain is also shipped to these and other processing centers along the Trans-Siberian Railroad from the Kulunda Steppes to the south. Novosibirsk receives grain from the Turk-Sib Railroad and Tittarsk from the Kulunda branch line, S-E.C-R.E-T Approved For Release 2004/01/20 :W-RDP92B01090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 SE.C-R.E.T Both Omsk and Novosibirsk also receive agricultural products from the south and timber from the north by river. Although some agricultural products continue downstream into the Arctic region, grain and lumber comprise the bulk of the transshipments from river to rail at Omsk and Novosibirsk, and petroleum products and coal are the principal commodities transshipped from rail to river. The location of Omsk and Novosibirsk between two major industrial complexes. the Urals and Kuznets Basin (discussed below), has contributed significantly to their industrial growth. Coal from the Kuznets; pig iron, steel, nonferrous metal ores, and aluminum from the Kuznets and Urals; and petroleum products from fields in the Ufa area and probably from Baku support metallurgy and metal working industries that manufactures finished products such as agricultural equipment, machine tools, and coal-mining Machinery. The surrounding agricultural areas and the Kuznets %bin provide markets for these goods. Important airframe and aircraft engine plants as well as rubber, textile0 and lumber industries are also located within both urban areas. Recent hydroelectric development at Novosibirsk has probably provided additional impetus to industrial expansion. (2) Novosibirsk - Krasnoyarsk Along the Trans-Siberian Railroad between Novosibirsk and Krasnoyarsk, mining and industry are of primary economic importance, Mining is concentrated chiefly in the Kuznets Basin, which is served by branches leading south from the Trans-Siberian, and also by the Trans-Siberian itself in the Anzhero Sudzhensk area. There is also mining on a smaller scale in the upper Yenisey, Kiya, and Chulym Valleys. The extensive coal and iron ore deposits of the Kuznets Basin have made this area one of the leading industrial complexes of the U.S.S.R. In addition to supplyihg coke-chemical and metallurgical industries at Kemerovo. Stalinsk. and Curoyevsk, coal is shipped to all parts of Western Siberia by rail. Other major exports from the Kuznets Basin to industrial centers along the Trans...Siberian are nonferrous metals, pig iron, and steel, along with some manufactured goods. Exploitation of local iron ore in increasing and appears to be satisfying most of the industrial requirements of the Kuznets Basin. Nevertheless significant quantities of iron ore and petroleum products are still imported by rail from the Urals. S-E-C-R-E-T Approved For Release 2004-/C1142.0 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 SwE-C-R-E-T The Chernogorsk coal mines in the upper Yenisey tralle;y supply fuel for Krasnoyarsk industries. These mines are tapped by a branch line which joins the Trans-Siberian Railroad at Achinsk. Southwest ofAchinsk manganese ore is produced at the nazulskiy mines. Commodities consumed along this branch include petroleum products and agricultural and industrial machinery. Agriculture along this section of the railroad is focused largely on production of vegetables0 dairy commodities, and grain for local consumption. Truck gardening and dairying are concentrated chiefly in the vicinity of the large urban centers, particularly in the densely populated Kuznets Basin. Elsewhere, in lowlands grain is the chief crop; in hilly areas emphasis is mainly' on livestock. Flour milling, meat packing, and dairying are the principal industries in Mariinsk, Bogotol, and Aohinsk. Lumbering is of some importance in the area between Novosibirsk and Krasnoyarsk, but it is of major significance along principal rivers to the north and in the neighborhood of Tomsk. Wood and Wood-chemical industries are important in both Tomsk and Krasnoyarsk. Krasnoyarsk, located on the Yenisey, is a center of heavy metallurgy and machine construction. Its industrial capacity combined with excellent rail and water transportation, makes Krasnoyarsk a major supply and distribution center for eastern Siberia. (3) Krasnoyarsk - Irkutsk The economy of the area along the Krasnoyarsk-Irkutsk section of the railroad is based mainly on lumber and coal-mining industries. The dense stands of timber in the Eastern Sayans support the numerous lumber, wood-working, and match plants found in most of the principal settlements along the railroad; lumber and mine timber are also produced for local coal-mining centers along the line. Chief centers of timber industries are Kansk. Tayshet, Nizhneudinsk, Tulun. Zims, and Usol'ye Sibirskoye. Usol'ye Sibirskoye is also the site of important chemical and salt installations. Coal-mining is concentrated chiefly in the Cheremkhovo area within the Irkutsk Basin and to a lesser extent in the Kansk Basin. The Irkutsk Basin, which extends for approximately 300 miles along the Trans-Siberian Railroad from Nizhneudinsk southward to Lake Baykal, ranks as one of the largest coal- Approved For Release 2004/01/2V'CIA-RDP92B01090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 producing regions in the Soviet Union. In addition to meeting fuel requirements of the railroad, which is a major coal consumer, the Irkutsk Basin supplies important industries and thermoelectric powerplants in Cheremkhovo, Usol'ye Sibirskoye. and Irkutsk. Coal is also exported by railroad and river throughout central and eastern Siberia, The abundant coal resources and hydroelectric developments along the Angara River, combined with excellent transportation for imported raw materials, have contributed significantly to the growth of industry in the area extending from Irkutsk to Cheremkhovo, The Cheremkhovo-Fekar'yevo complex, using local coal and lead and steel imported by rail, includes the U.:3.S.R.'s second largest submarine-battery plant, as well as plants manufacturing synthetic fuels and mining machinery. Principal industries in Irkutsk are an airframe plant and a heavy-equipment plant that produces metallurgical equipment, mining and excavating machinery, electrical components, and a variety of consumer goods. Numerous assembly and processing installations, based on local and imported raw materials, are also located in Irkutsk. Its role as a center of military industries and transportation makes the city a major supply depot for military operations in eastern Siberia and the Far cast. Agriculture is relatively unimportant along this section of the line and is limited chiefly to river valleys, notably the Angara Valley and the area between Krasnoyarsk and Kansk, These areas specialize in vegetable, grain, and dairy farming; livestock for meat and wool is raised chiefly in the forested hilly areas. (k) Irkutsk - Skovorodino East of Irkutsk, mining occupies a dominant position in the economy. Coal, iron ore, and nonferrous and rare metals are mined in many places throughout the mountainous Transbaykal region. The principal coal mines are located at Chernovskiye Kopi immediately west of Chita and at Bukachacha to the east. ilinor deposits along the line are also worked. Coal of coking quality, however, is mined only at Bukachacha. Local coal, supplemented by coal shipped in by rail from Cheremkhovo, supply the fuel requirements of the industries and railroad operations concentrated at Ulan.Ude, Petrovsk Zabaykarskiy. and Chita. S-E-C-R.B.T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-B-C.R-E-T Nonferrous metals are mined in the region, especially between the Shilka and Argun Valleys, The Tarskiy Otpor branch serves a number of these mining areas. The industry of the two largest cities Ulan.Ude and Chita is focused chiefly on serving railroad operations. Ulan.Ude has the largest railroad-equipment plant east of the Urals. Although concerned principally with rebuilding locomotives, some freight cars and parts are manufactured0 an aircraft assembly plant and chemical, textile, and food-processing plants are among the other industries of Ulan-Ude, The largest installation in Chita is the railroad-equipment plant; in eastern Siberia, it ranks second only to the Ulan-Ude plant. Rail traffic that terminates here comes principally from the vest and includes coke, iron, and steel from Petrovsk Zabaykaltskiy and electrical equipment from oscow as well as petroleum products, railroad and mining equipment, agricultural machinery, foodstuffs, and military material from industrial centers along the line. As the headquarters of the Transbaykal Vilitary District, Chita has extensive storage depots to serve military requirements, as well as civilian storage facilities. Chemical, leather and various repair and machine construction plants are among the other enterprises within the city. Since the region between Irkutsk and Skovorodino is predominantly mountainous, livestock raising .. with emphasis on meat, wool, and dairy products .. is the main agricultural activity; but spring wheat and oats are grown in the valleys. Together, these products support food-processing and leather industries in a number of settlements along the railroad and in the adjacent valleys. (5) Skovorodino Vladivostok The area along the Trans-Siberian Railroad and Vladivostok has undergone considerable industrialization in ????? between Skovorodino recent years based on exploitation of mineral resources. Lumber, non-ferrous ores and metals, furs, and fish are the major products exported from this area by rail. Coal, the most important energy resource, is mined at Raychikhinsk, in the upper Dureya Valley at Urgal, and at Artem and Suchen. All are on branches of the Trans.Siberian Railroad. Brown coal (lignite) from the SaB-Ca.R-E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 recently exnloited deposits at Raychikhinsk and hard coal from the Bureya fields are used principally in the operation of railroads and in the production of electric power, Some is shipped east to power stations and industries at Khabarovsk and Komsomolisk. Coal from the.Artem and Suehan mines supports similar operations in nearby port cities of Vladivostok and Nakhodka. Suchen coal is also used as fuel for ships. Khabarovsk is an important center for the assembly of aircraft and the manufacture of armaments. One of two large oil refineries in the Soviet Far Sast is located here. Petroleum and additional coal are shipped from Sakhalin to supply industries of Khabarovsk and Komsomorsk. Komsomol sk. on the Sovetskaya Cavan hranch of the Trans-Siberian, has the Amurstal' steel mills, the only plant of its type in the Soviet Far East, The Ussuri Valley south of Khabarovsk is a major lumber-producing region. Most of the principal settlements have factories for processing timber, which is cut in the heavily forested Sikhota.Alin' Mountains. Birobidzhan, west of Khabarovsk, is also a major center of lumber and wood-processing industries. Vladivostok, U.S.S.R.'s largest port and naval base on the Pacific, is the focus of maritime trade, shipbuilding, and fishing. Coal-mining, lumberinF.,,, and agriculture in the adjacent areas support other industries. The nearby settlement of Wakhodka is becoming increasingly important as a supplementary naval base and commercial port. Agriculture along this easternmost stretch of the Trans- Siberian Railroad is confined chiefly to three areas: the Zeya-Bureya Plateau, the.middle Amur Valley, and the Ussuri-Lake Khanka Lowland. In the northern areas, spring wheat and livestock raising predominate. The largest flour mill in the Soviet Far East is located at Blagoveshchensk. Svobodnyy and Kuybyshevka- Vostochnaya are also surrounded by farming land and are centers for the manufacture of agricultural and industrial equipment. In the Ussuri-Lake Khanka Lowland the chief crops are rice, soya beans, sugar beets, and is an important agricultural center of this area. c. Transportation route patterns (1) Railroads grain. Voroshilov Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T The Trans-Siberian Railroad is the only east - west transportation route across Asia capable of handling heavy traffic. Alternate rail routes exist or are under construction for some portions, but there is no complete alternate route. The railroad and the Northern Sea Route are the sole links between the great northward-flowing rivers, which are the regions only other means of large scale transport. The most significant roads in the region are those from the railroad to navigable waterways which the railroad does not reach, particularly the road from !ever on the Trans-Siberian north to Yakutsk on the Lena River. Omsk end Novosibirsk are the most important junctions on the railroad and the line 'between them is one of the most heavily traveled in the Soviet Union. Omsk is the junction of railroad lines from the Urals and Suropean U.S.S.R. via Sverdlovsk and Chelyabinsk. East of Omsk, a line reaches southward from Tatarsk into the Kulunda grain producing area. At Novosibirsk. the Trans- Siberian is joined by the Turkestan-Siberian Railroad leading south and southwestward into Soviet Central Asia, and by the main rail outlet of the heavily industrialized. coal-producing Kuzbass to the Southeast. Bast of Novosibirsk, branches lead into the Kuzbass from Yurga and Anzhero-Sudzhensk. The South Siberian Railroad extends westward from the Kuzbass, and offers an alternate route for the Trans-Siberian. 7ietween the Kuzbass and Irkutsk there is no alternate railroad. A short branch line reaches northward-from Tayga through Tomsk on the Tom River to Asino on Chulym River. A longer branch extends southward from Achinsk to the Chernogorsk coal fields and the Atakan agricultural area. The 116.14 (Baykal-kmur flagistral) extends eastward from Tayshet to Ust Kut and Osetrovo on the Lena River. Between Irkutsk and Slyudyanka traffic now moves on a recently completed electrified double-tracked line following the Irkut valley. Part of the old main line has been flooded by the Angara river dam. The flooded section may be replaced by a new track to be built on the north bank of --Um Angara River from Irkutsk to Lake Baykal. From Ulan-Ude a branch line runs _46- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 south and southeastward through Mongolia to China. The southern portion of this line (Ulan Bator-Chining) was opened to traffic in 1956. This line, the Trans- Mongolian, is the shortest rail route between the most populous areas of the U.S0SeR. and China, and it will carry a significant share of the traffic between the two nations. Another line to China branches southeastward from Tarskiy and connects with the flanchouli.Harbin-Suifenho line in Manchuria, A line into eastern Mongolia:01ns this branch at Borzya. From Kuenga, a short branch goes eastward to Sretensk, head of navigation on the Shilka River (a tributary of the Amur), and terminus of a road leading southward to Borzya. At Kaganovicha branches lead to Olov and the Bukachacha coal fields. From the Skovorodino area a short line branched northward to Tynda until World War II when it was apparently dismantled. This branch is to be restored and extended northward to a coal field at ChuIman. The branch roughly parallels a road from Never to Yakutsk which is the main supply route for settlements along the Lena River and its tributaries in Winter, when freezing halts navigation. From Skovorodino eastward to Birobidzhan there are several short branches to the south which connect the railroad with ports on the Amur River at Dzhalinda, Blagoveshchensk, Poyarkovo, Pashkovo, and Nizhne Leninskoye. Two Short branch lines link Bureya with nearby coal fields around Raychikhinsk. From lzvestkovaya a branch extends northward to Urgal and thence eastward to Komsomol'sk where it joins a branch from Volochayevka which leads eastward to Sovetskaya Gavan?. Between Khabarovsk to Manzovka there is only a single branch line extending eastward to a lumbering area east of Obor. At Manzovka branches northwest to Turiy Rog and east to Varfolameyevka serve airfields and military installations. From Voroshilov a branch extends westward to connect with the Manchouli.Harbin-Suifenho line, forming a continuation eastward from Tarskiy. From Baranovskiy a branch extends southward into Korea. At Ugolonaya, a short distance north of Vladivostok, a branch goes eastward to the Suchan coal mining area from where it leads south to Nakhodka? a port of growing importance for commercial traffic diverted from Vladivostok, and north to Sergeyevka. -47- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 SE-C-R-1.T (2) Roads Highways tributary to the Trans-Siberian Railroad are cenerally local in construction and function. From Omsk to Chita and from Birobidzhan to Vladivostok the Trans.Siberian Railroad is paralleled by motorable roads, although few of them are paved all.meather routes capable of supporting high density truck traffic. Improved roads radiate from larger cities such as Omsk, Novosibirsk, Achinsk, Irkutsk, Ulan-Ude, Chita. Sretensk, and Svobodnyy. Roads running south from some of these cities lead to the border of Mongolia and China. From Irkutsk and Never improved all.meather roads connect with inland shipping on the Lena River at UstfKut and Yakutsk. respectively. The paved Stalin highway from Birobibzhan to Vladivostok was built primarily as a military supply route. In the area north of Vladivostok roads primarily of military simificance lead westwrd and southward from the Trans-Siberian, generally paralleling branch railroads, to the borders of Manchuria and Korea and eastward primarily to military installations. (3) qaterways Two river systems, the Ob and Yenisey. intersect the Trans- Siberian railroad aparoximately at right angles. Another system.the Lena, is connected with the Trans-Sibarian by means of the Baykal4mur Magistral (B100 branch line from Tayshet to Osetrovo. The Amur river parallels the Trans- Siberian and has several navigable tributaries which cress the railroad at right angles. The Oh river system connects with the Trans-Siberian by means of the Irtysh at Omsk, the Ob proper at Novosibirsk, the Tom near Yurga. the Kkya at Mariinak and the Chulym at Achinsk. The Yenisey river system connects with the railroad by means of the Yenisey proper at Krasnoyarsk; the Oka at Zima; the Angara at Irkutsk; and the Selengs at Ulan-Ude. The Amur river system connects with the Trans-Siberian by means of the Shilka which parallels the railroad from Chita eastward to its confluenc6 with the AVM' south of larofey Pavlovich. The Amur proper parallels the railroad from its confluence with the Shilka to Khabarovsk and from thence dots as a tributary of the railroad to its mouth. At Svobodnyy the Zeya, and at C-R-E-T -48- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Kuybyshevka-Vostochnaya the Tom, a tributary of the Zeya, connect with the railroad, The Bureya connects at Raychikhinsk and the Bira at Birobidzhan. The Ussuri River and Lake Khanka parallel the railroad from Khabarovsk to Spassk- Dainty. (4) Pipelines Currently only one oil pipeline is known to exist in the area east of Omsk. From the oil fields of Sakhalin a pipeline carries Oriade to the refinery at Komsomolsk. The Sixth Five-Year Plan (1956.1960) provides for the completion of two pipelines between the Ufa area and Irkutsk, one for crude, the other for refined products. It is planned to later extend one of these lines eastward to the Khabarovsk area. Since the Trans-Siberian moves a large volume of petroleum traffic, these pipelines will relieve the Omsk-Irkutsk section of line of part of its traffic burden, both of eastbound loaded and westbound empty tank cars. A gasoline pipeline is also being extended eastward from OMsk to Novosibirsk. In April 1956 the Tatarsk-Barabinsk section was being laid. (5) Civil Air Lines In the region served by the Trans-Siberian Railroad the network ofakeroflot? the Soviet civil air carrier, is built around an east-west route and several north-south routes. The route from Moscow to the Far East parallels the Trans-Siberian Railroad and has other main and secondary routes radiating from the following important cities on the railroad: Sverdlovsk, Omsk, Novosibirsk, Krasnoyarsk, Irkutsk, Chita, Hagdagachi, and Khabarovsk. From Khabarovsk routes go south to Vladivostok and north to Sovetskaya Gavan and Magadan. Recently Aeroflot has extended its service out of Magadan and has incorporated into the scheduled network certain Arctic and regional routes in Northeast Siberia. Connections between Aeroflot routes and the Chinese Civil Air Fleet are provided at Irkutsk and Alma Ate and with North Korean Civil Air Fleet at Chita. These services are coordinated through the Sino-tioviet Bloc SE-C-R-E-T Approved For For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S.B.C-RZ-T civil air network and the airlines are standardized on the same types of aircraft and operational procedures. B. Technical Characteristics of the Line 1, Line Characteristics The line characteristics of the various sectors of the Trans..Siberian railroad are Shown in Table 9. The railroad is double tracked, except for the single track Amur river bridge at Khabarovsk and two short sections of triple track between UlanZde and Chita. There is, however, a single track tunnel under the Amur river parallel to the bridge for use in emergencies. The line is electrified from Omsk to Novosibirsk and from Irkutsk to Slyudyanka via the new by-pass line. Westward from Irkutsk toward Tayahet further electrification is currently underway? The electrification of the remaining sections between Omsk and Slyudyanka is projected during the Sixth Five Year plan period (195640). The track structure of the Trans-Siberian railroad is light by U. S. standards. It is estimated that the dominant rail weight on the Omsk-Achinsk sector is 101 pounds per yard on the main line, although there are probably some sections still having 86 pound rail. From Achinsk to Khabarovsk, 77 pound rail predominates. The weight of rail on the new Irkutsk-Slyudyanka by-pass and Khabarovsk-Uladivostok sectors is unknown, although heavier type rail is believed to have been installed on the former line. The standard Soviet rail is 41.25 feet long. Rail joint bars are 6 hole, 31.5 inches long. Rail joints are opposite (not staggered). Rail anchors are used, averaging between 7 and 10 per rail length. Host ties now being laid on the Trans...Siberian are creosoted; the ties measure 7" x 10" x 90, and approximately 2800 ties are laid per mile0 providing an average spacing of 22.5 inches between tie centers. The track on this railroad is ballasted with crushed rock and broken stone from Omsk to Achinsk; crushed rock and sand from Achinsk to Irkutsk; possibly crushed rock on the Irkutsk-Slyudyanka by.pass; and primarily sand from Slyudyanka to Vladivostok. Maximum permissible axle loads, calculated on the basis of the weight of rail and type of track, is estimated at 24 tons on the Omsk.Achinsk sector, which has primarily 101 pound rail, and 22 tons on the remainder of the line on Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92B01090R000300020032-8 .E,4,c.R-E. T Table 9 TRANS-SIBERIAN RAILR0AD Line Characteristics Sector Sector Dist. 7=-""" 390 360 3714 146 Tipe of Traction Used Loco. Types Used Ruling- Grade Radivj, Weight of CurvatureM of Conde of Audi Max. Axle Load tort Tole 24 22 22 Ballast Signals Max, Dist, Bet. Iniert 1.8 1.8 na na auto Types Dist* Max Di stance Between 1.atering Bet. Stations Onak - Novosibirsk Novosibirsk - Achinsk Aohinsk - Ta hot Tay shet Irkutsk I Eat, 0.8 0.8 0.9 0.9 1.0 1.0 1.0 1.0 Pea 1,738 1,0146 1,0146 909 11%3.1 Crushed rock, broken stone Crushed rook and sand Electric and Steam Steam Steam Steam SO 17, SO 19 L, Yea Yel, Em, 1:14 L, yea, SO-17, S0-19 VD, Eg Em, Er Ls Yea, SO, LIT Eg, Em, Er Yoa,Yel, Era, LV ibskd 101 101 77 77 Good Good Good Good Hiles A.B. 19.3 A.B. 10.6 Assumed 9.9 S Assumed 14.3 S.A.B. Facilitie a Liles 33 214 20 Approved For Release 2004/01/20 : CIA-RDP92B01090R000300020032-8 Sector Irkutsk I - Slud:-anka Uyudyanka - ZaudinskiY Zaueinskiy - I TarsUy Tarskiy Skovorodino Skovorodino Arkhara Arkhara - "Khabarovsk I Khabarovsk I - Vladivostok Sector Diet? rams 79 211 414 615 482 274 478 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Type of Traction Used Loco. Types Used Rulinr Grads S-B-C-R-E-T Table 9 (continued) TPCB-SIDEBIAL LAILL0AD Line Clmrocteristics Minimum nadivg, V;oight of Curvature( of Comic. of Bail Max ? Avle Load ma% Tons 318, 22 22 22 22 na alast Signals Max. Maximum Dist, Distance Bet. Between rdateriug Illx. Dist. 2st.Stations ISM,.......?."4" ma na na 1)A na na na TN Prob. A. B. St.S St.8 St .S St .6 SUS ma 2.01/ 0.9 1.74 0.8 0.8 0.8 100 2.021 0.9 1.74 009: 0.8 0.8 1.0 Feet na 1,050 1,050 1,050 1,050 1,050 840 Rail .......... ma Mostly sand or clay Mostly Sand or clear st Electric Steam Steam Steam Steam Steers Steam VL-22m 11-8 Yea, Yel, Yea, Ye? Yea,Yel Yam, Yes Yea, Yom Yeas E Yea, Yea Lv Yeaslrem Lv ma 77 77 77 77 na GOOd4( Fair Poor Poor Poor na .zrn- 12.0 1006 13,1 114,9 13.1 10.6 9.9 Facilities Milo rut 26 22 30 28 25 26 Total 4.093 Latex Line is 5'0" gage, double track throughout except for two short triple track section's between than Ude and Chita, creosated ties laid 2,800 per mile predominate? Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 25X1 8,41-0-Ro-E-T af A. B., automatic Llock; S.A. Bop semi-automatic blek; Lt. So, Station signal (station to station block). 2/ Estimated, based an Soviet announcements Lstimated, based an relative time indicated in the 1956 timetable? Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-2*C.R-E-T which 77 pound rail predominates. It has been assumed that bridges will support these axle loads. Axle loadings of freight locomotives known to be operating on the Trans-Siberian (Table 11) vary from a low of 17,1 tons (Yes) to a high of 22.7 tons (FD-21). Rail weights permit ail these types to operate on the Omsk- Achinsk sector but prevent the operation of the FD-20 and F11-21 east of Achinak at high speeds orr-for prolonged periods, 25X1 The maximum grade on the line is believed to be 2.0 percent on the new Irkutakz.Slyudyanka by-passe The second heaviest grade, and formerly the heaviest, is 1,74 percent against eastbound traffic between Gorkhon and nem, east of UlanZde; and 1,74 percent against westbound traffic between Yablonovaya and Turgutai? west of Chita. Elsewhere, maximum fleades are limited to 1.0 percent. Minimum radius of curvature is 1738 feet on the Omsk-Novosibirsk sector. and vradually decreases to 909 feet on the Tayshet-Irkutsk sector, is 1050 feet from Slyudyanka to Khabarovsk, and falls to 840 feet from Khabarovsk to Vladivostek. The maximum distance between any two adjacent stations on the railroad is 19.3 miles. found on the Omsk-Novosibirsk sector. The maximum distance between watering facilities is 33 miles, also on the Omsk-Novosibirsk sector; however, this sector is now electrified. 2. signals The Trans-Siberian has automatic block signals from Omsk to Achinsk, spaced a maximum of 168 miles apart. FromAchinsk to Irkutsk the signalling is assumed to be semi-automatic block but maybe manual block with electric signals at the block stations (and perhaps a "distant" signal further out on each side of each block station). The former consists of an intermediate signal midway between the block stations which is controlled by the: block station which the train is approaching. S.E.4Z-E-T Approved For For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T The Irkutsk-Slyudyanka by-pass line is believel to have automatic block signalling, but the spacing is not known. From Slyudyanka to Vladivostok it is estimated that signals are found only at stations although it is possible that a higher type of signalling is in operation between Khabarovsk and Vladivostok. 3. lards Generally, yards on the Trans-Siberian railroad are small (details on yards are given in Table 3). LAor classification yards are located at Omsk. Novosibirsk, Krasnoyarsk, Irkutsk, Ulan-Ude, Chita, Kuybyshevka- Voatochnaya, Khat,Irovsk, Voroshilov. and Parvaya Rechka (Vladivostok). The total number of tracks in these terminals range from 20 to 30 each except for Novosibirsk which has an estimated 75, primarily in Inskaya. The remaining yards on the Trans-Siberian are used primarily for the relay of trains, which includes changing locomotives, inspection of cars, and removal of bed-order cars. These yards have between 6 and 20 tracks, ,the greater number of tracks generally occurring where there is some classification, as at Cheremkhovo, which assembles and disassembles coal trains for nearby coal mines. In general, the number of tracks in relay yards decreases from west to east. 25X1 4, Locomotive Repair Facilities a. Locomotive Depots and Turnaround Points The standard type of locomotive depot or turnaround point shed on the Trans-Siberian railroad is rectangular in shape. It is traversed by three tracks, with three doors on each end, permitting 6 main.line steam Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 locomotives to occupy the shed simultaneously, A less common type of shed has two tracks and space for Li locomotives. When a repair point has more than one shed, the buildings are generally placed in echelon. There are only a fee locomotive roundhouses on this Um. Points which operate as locomotive depots (home terminals) usually have several sheds, and some of the sheds or stalls are utilized for medium repairs, remover, the overall number of stalls in these depots is small, In addition, a number of cities have large repair factories which perform either medium or capital repairs, or both. At present, no locomotives are known to be manufactured in any city located on the Trans-Sil!erian railroad, Locomotive factories formerly used for this purpose are now apparently devoted to either medium or capital repairs, or both. Locomotive turnaround points (where the locomotive is serviced and turned, and is given light repairs only when necessary) normally have only one or two sheds (see Table 10). The distance between a locomotive depot and its adjacent turnaround points averages 77 miles vary. from 50 to 110 miles, with the shorter distances found east of Tarskiy. Available intelligence on locomotive repair facilities varies considerably on the number of stalls at each city. In addition, it disagrees on the number of buildings in a repair area, the number of buildings which are entered by railroad tracks, the number of tracks entering the building and the number of locomotives which can be accommodated on each track. In the analysis of locomotive repair facilities, it has been assumed in every case that each track in locomotive sheds could accoModate no more than two locomotives, 25X1 25X1 S-E-C-R-E-T Approved For For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Location Approved For Release 2004/01/20: CIA-RDP92601090R000300020032-8 Table 10 TRANS.SIBERIAN RaIROAD Steam Locomotive Repair Facilities Distance Distance Locomotive Repair Facilities Function from between Rupning,04 Dedivkpeoatr Capital Ramat Noscow Locomotive Estimated Estim. Estim. (miles) Facilities No of ShOs No of Total (miles) Stalls No of per Stalls Omsk (Moskovka) Tatarskaya Barabingk D 1.688 1.692 TV 1.793 1.889 101 . 96 1 2 1 1 12 aif 21211.111.. 010.01111?????????? 12 6 14 38 6 6 6 46 22 106 Chulymskaya 1.995 2 8 UM 82 Novosibirsk II 2.077 1 6 (Inskay6) 1 I/ 331 8 I/ 6' 32 78 Bolotnaya 2,155 1 h / mi 6 ? 12 2/ 18 65 Tayga 2,220 6 18 93 Mariinsk 2.313 2 6 82 Begotol 2.395 1 1 .2! 6 6 12 68 Chernorechenskaya 2,463 1 410. 89 Krasnoyarsk 2,552 4 6 214 X 81 Klyukvennaya 2,633 1 6 6 92 Ilanskaya 2,725 1 6 1 ail 20 W. 26 87 Tayshet 2.812 2 6 12 101 Nishneudinek 2.913 3 6 18 IMO 73 Approved For Release 2004/01/207gCRDP921301090R000300020032-8 Location Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table 10 (continued) TRAMS.SIBERIAN RAILROAD Steam Locomotive Repair Facilities Distance Distance Function from between Moscow Locomotive (miles) Facilities (miles) Locomotive Repair Facilities P4Dnips and 'Odium Repair Caoital ReRap Estimated Estim. Estim. of Sheds No of Total Stalls No of 7Ulun Zims Cheremkovo 2,986 3.072 3,146 86 2 4 1 2 per adSIONOO 6 6 6 4 Stalls OfilIDOODoODNID 12 14 76 Irkutsk II 3,222 1 20 84 2 6 32 Slyudyanka T. D 3.306 2 6 12 OD 103 Mysovaya 3,409 2 6 12 102 Ulan Ude 3,511 3 6 18 69 Gorkhon Helper 3,580 1 6 1 4 10 20 Petrovskiy 3,600 1 2 Zavod 2 4 10 Khilok 3.693 6 1 4 28 75 Moigzon 3,768 2 6 12 OD kO Xablonovaya Helper 3,808 1 6 6 47 Chita 3.855 6 6 36 63 Karymskaya 3,918 4 6 24 90 Shilka 4.008 3 6 18 91 Kaganovicha 4.099 3 6 18 OD 52 SZ-C,FR-E.T Approved For Release 2004/01/a: CIA-RDP92601090R000300020032-8 Location Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 8.3.4.443.4 TeX* 10 (oontinued) TRARS.SIBERIAN RAILICAD' Steam Locomotive Repair Facilities Distance Distance Function from between Kowtow Locomotive (miles) Facilities (miles) Zilovo 4.151 80 Ksenyevskaya 4,231 Mogocha 4,298 61 Amazar 4.359 66 Yero fey 4.425 Pavlovioh 62 Urusha T 4?487 58 Skovorodino 2$. 60 Taldan T 58 Magdagaohi 4,663 67 Ushumun 4.730 73 Shimanovskaya 4,805 89 Kuybyshevka Dfil 4,894 VOstochnaya 74 Zavitaya T 4,968 28 Bureya T 0-1 4,996 32 Arkhara 5.028 70 Obluchye 5,098 69 Locomotive Repair Facilities PunninaAndApdtam Reofir CapitaRpoair Estimated Estim. Estim. No of ShedsNO of Total Stalls No of per Stalls 4 6 2 4 32 1 6 1 4 10 1 6 4 4 22 2 6 12 3J 6 18 2 6 12 4 20 6 1/ 6/ 12 4 1/ 6i 24 6 10 24 6 21. 10 61/ 1 6 1 4 6 24 6 6 Approved For Release 2004/0S90 : CIA-RDP92601090R000300020032-8 ? Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table 10 (continued) TRANS-SIBERIAN RAILROAD Steam Locomotive Replir Facilities Location Bira Function T Distance from Moscow (miles) 5,167 Distance' between Locomotive Facilities (miles) 72 In (Smidovich) 5.239 68 Khabarovsk II T & D 5,307 73 Vyazsmskaya T 5,380 65 Bikin 5.445 52 Guberovo 5.497 57 Ruzhino 5.554 73 Yevgenyevka 5.627 O2 Voroshilov 5.709 68 Pervaya Rechka 5,777 3 Vladivostok 5,780 25X1 Locomotive depot (home terminal) 2/ Locomotive turnaround point Locomotive Repair Facilities puppple an4 PkodUra Repair Capitol Repair Estimated Estim. Estim, No 9, ?heOe No of Total Stalls No of per Stalls 2 8 LI 6 24 5 5./ 6i/ 30 1 1 10 2 .2/ 6 1/ 12 1 6 1 4 3 6 18 1 6 6 13!?/ a. 6 3.9 ,s I , ..u=, t 6 1/1/ io 2 6 12 S-E-C-R4-T ?60 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 NNW OP Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-H-E.T b. Locomotive Repair Plants Following is the estimated number of locomotives which can be accommodated simultaneously in erection shops of locomotive repair plants, which perform medium and heavy repairs: Omsk. 7; Krasnoyarek, 34 Novosibirsk, 3; UlandUde, 7; Voroshilov, 5. Cooling and Watering Facilities There are insufficient data to permit an accurate determination of the type of coaling and/or watering facility at each point along the Trans- Siberian railroad. Watering facilities are spaced at an average distance of about 15 miles. Locomotive coaling facilities at many terminals appear to be equipped with cranes but at other points locomotive tenders are loaded by hand. At some points coaling towers are in use. C. Equipment 1. Locomotives a. Types in Use The types of freight locomotives used on Ve various sectors of the Trans-Siberian are shown in Table 9. In general, the newer and'heavier types of locomotives are used on the western sectors, although some heavier types have beeh seen near Khabarovsk. Some passenger trains are pulled by electric locomotives on the sections between Omsk and Novosibirsk, and by steam JS and SU-locomotives from Novosibirsk to .4chinsk. The $U passenger locomotive is used on all sections of the line which ars not electrified. Some new P-36 passenger locomotives are now in operation on the Tayshet-Irkutsk section. The type 0 steam locomotive is used for switching on the entire line. Specifications and characteristics of steam freight locomotives used on the railroad are shown in Tables 11 through 15. Following are epecifieations of electric locomotives used on the railroad: Total Hourly Loco. Wheel Year Weight, Rating, 2L9.2.- -271ingPMent Built lbs, P in b. D. VL-22m 0-6-0.- 0.6.0 1947 291.060 3260 N-8 . 4-4-0 1954 396,900 5700 Approved For Release 2004/01164-: CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S--C-R-E-T Table 11 TRANS-SIMIAN RAILLOAD Specifications of Steam Freight Road Locomotives Used -V Starting T teight of ractive First Weight Loco. in weidit Number Diameter Percentaf Force at Factor L000. theel Year an V.orking of Boiler of Cylinder Piston of of Rim of,,, of Type Arr, Produced Drivers Order Tender Pressure Cylinders Diameter Stroke Drivers Cut-off Wheel di Adhesion 4/ (lbs) (lips/ (lbsf As per (inches) (inches) (inches) (Las) sq. inch SO-17 SO-19" L 7/ LV Yea Tel Yes Yam E Em Eg Er FD-20 FD-21 2.4.0-0 1934 193,158 212,520 145 P 2?0 198.8 2 25.6 27.6 52 2-10-0 1934 2071270 228,046-q 179,300 198.8 2 25.6 27.6 52 2..10-0 19145 200,655 227,115 170.887 198.8 2 25,6 31.5 59.1 2-10?2 1952 199,552 264,600 n. a. 198.8 2 25.6 31.5 59.1 2-10-0 1944 188,968 212,121 161,406 180.3 2 25 28 52 2-10-0 1917 177,061 202,198 152,586 1E0.3 2 25 28 52 2-10..0 1917 171,108 195.39e 1470455?/1804 2 25 20 52 2-10-0 1944 188,968 212,121 161,406 10143 2 25 28 52 0.10-0 1914 179,046 179,0144 135,607 170.4 2 25.6 27.6 52 0-10.-0 1931 182,794 182,794 146,632 198.8 2 25.6 27.6 52 0-10.-0- 1932 179,046 179,046 135,07 1704 2 25.6 2706 52 0-10-0 1932 184,117 184,117 146,632 198.8 2 25.6 27.6 52 2-10-2 1951 222,043 296,352 271,215 213 2 26.4 30.3 594 2-10-2 1941 227X5 302,085 271.215 213 2 26.4 30.3 59.1 &DE-C-11,44-T Approved For Release 2004/01/20: CIA-RDP92601090R000300020032-8 65 48,938 3.95 70 50,9136 4.06 65 149,303 4.07 65 139,303 70 1431:94 :109:8113 44 14.1.24 65 65 102081 3=97 10 144,901 14.4 65 42,083 4.25 55 Y 144,257 4.13 65 142,083 4.25 55 PI 46 257 4.16 60 51,75!i 11..29 60 51,754 448 X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S.E.C.R.E.T Table 12 Boiler Characteristics Locomotive Type Direct Heating Surface (po. ft.) Indirect Heating Surface (so. ft.) Rate of Evaporation per sq. ft. ,/ Rated Evaporation Length of Indirect Surface -14 lbs per h Tubes (ft.) lbs or sq ft oer hr S0.17 264.16 2207.09 15.29 10.78 38.321.23 S0-19 264.16 2207.09 15.29 10.78 38.321.23 L 277.61 2114.34 16.90 10.23 36.898.25 Yea 227.04 2239.16 16.66 10.30 350550.55 Tel 227.04 2382.26 16.91 10.23 376857.72 Yes 227.04 2382.26 16.87 10.24 36.881.54 Tern 227.04 2439.16 16.66 10.23 35,393.81 B 194.76 203.64 15.29 10.78 32,634.44 Em 194.76 1930.34 15.29 10.78 310520.87 Eg 194.76 2033.64 15.29 10.78 32,634.44 Er 245.33 1887.30 15.29 10.78 33,838.24 FD.20 336.03 2828.37 19.59 9.32 44.842.06 FD-21 333.56 220.80 19.59 9.32 38.903.86 .1./ Factor based on length of tubes. 2/ Based on the formula: Rated evaporation (lbs per hour) = (DHS x 55) IL (IHS x ISRE). DHS = Direct beetily- surface (sq ft). 55 .7 Constant valve of evaporation per square foot of direct beating surface for boilers of low capacity. IRS .7 Indirect heating surface. ISRE = Indirect heating surface rate of evaporation . a factor based on length of tubes. Approved For Release 2004/017#:-CIA-RDP921301090R000300020032-8 Approved For Release 2004t1SIMF-FDP92601090R000300020032-8 Table 13 Boiler Tractive Force il (pounds) Colum Woos 1 2 3 11. 6 13? TM:V? Force 000ntot ye Type to' pomt ali Lbs? per hour team scum psi ? 6 per Ind. 110P. hour o or ? Col. 2 .1b Colo 5 x 375 SPEED 3 :..0 mph 15 mph 20 30 mph so-17 389321.23 198.80 19.7 1,9145.24. 729,465 72,9146.5 48,631.0 36,473.3 29,178.6 24,315.5 80-19 38,321.23 198.80 19.7 1,945.24 729,465 72,946.5 488631.0 364473.3 29,178.6 24,315.5 L 36,898.25 198083 19.7 1,87340 702,375 70,237.5 46,825.0 35,11808 28,095.0 23,132.5 Yea 35,550 .55 183030 20.25 1,755.58 658,3143 65,83403 0,889.5 32,917.2 26,3334 21044.8 Tel 37,857.72 180.30 20.25 1,869.51 701,066 70,106.6 116s 737.7 35,05303 20:042.6 23,368.9 Yes 36,881.514 180030 20.25 1 ,821 .31 682,9% 68,299.1 45,532.7 314149.6 27,319.6 22,76604 Yes 35,393 .81 180.30 23 .25 1,747,84 655,10 65,54400 43,696.0 32,772.0 26,217,6 21,848.0 E 320631i.014 170.4 20.55 1,588 .05 595,519 59,551.9 39,701.3 29,776.0 23,820.8 19,850.6 Ea 31,520.87 198080 19.7 19600 004 600,015 60,001.5 1)0)007.0 33 ,000.8 2k0004 20,0004 Eg 32,63444 170.140 20.55 1,588.05 595,519 59,551.9 39,70103 29,776.0 23,823.8 19,850.6 Er 33,838.24 198080 19.7 1,717.67 644,126 64,1412.6 142,9414 32,206.3 25,765.0 21,1470.9 FD.SO 44,842006 213.0 19.4 2,311 .114 866,790 86,679.0 57,786.0 143.339.5 34,671.6 28,893.0 FD-21 38003.86 21300 19.14. 2,005.35 7529006 75,200.6 50,133.7 37,600.3 30,080.2 25,066.9 Si-E-C?11-E-T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-B0C-R-E-T Tabu 13 (continued) Boiler Tractive Force .1/ Formula used to compute boiler tractive force at various speeds: DTP: BHP x 375 BHP = Bated evaporation (lbs. per hr.)_ Steam utilisation (lbi) per indloataa EP. hr. 375: Conversion factor obtained in converting horsepower to foot lbs. per hr. (60 x 33,000) and miles per hr0 to feet per hr. (5200) = Speed in miles per hr. Steam utilisation (lbs.) per indicated hp. hr Value from steam rate table; 200?F superheat (assumed for these specific engines) at maxim= steam pressure. Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : ClkTak11421gbie:090R000300020032-8 Cylinder Tractive Force Factors Mean Effective Pressure (Psi) 2/ ...._.__.....__zA.IFzL.L.anutPistcv:tSee) Locomotive Piston Speed Typo Factor 10 mph 15 mph 20 mph 25 mph E. mph..... Cut-off 10 mph ........... 13 mph, 20 mph 25 mph 0 mph c2 x ..1110.11r????? 80-17 2907 29705 14505 594d0 74205 891.0 65 140.15 131.21 117.29 103.38 9244 347.8 80-19 2907 29705 445.5 59400 742.5 89100 70 146.12 135.18 121.27 109.34 97.4 347.8 L 29.8 298.0 /447.0 596.0 74500 8944 65 140.15 131.21 117.29 103.38 91.4 349.1 rol 30.1 301.0 451.5 602.0 752.5 903.0 70 132.52 122.60 109.98 99.2 ;,..3 336.5 'Tel 33.1 301.0 451.5 602.0 752.5 903.0 65 127.11 119.0 106.38 93.76 82.54 336.5 Yes 30.1 301.0 451.5 602.0 752.5 903.0 65 127,11 119.0 106.38 93.76 82.94 336.5 i Yem 30.1 301.0 451.5 602.0 752.5 903.0 70 132.52 122.60 109.98 99.2 8843 336.5 E 29.7 297.5 445.5 594.0 742.5 891.0 65 120.13 112.46 100.514 88.61 78038 347,8_ Em 2907 207.5 /445.5 594.0 742.5 891.0 55 126.24 117.29 103.38 91.45 81.51 347.8 Eg 30.1 30100 1451.5 602.0 752.5 903.0 65 120.13 112.46 100.54 88.61 78.38 347?8 Er 29.7 297.5 445,5 594.0 742.5 891.0 55 126.24 117.29 103.38 91.45 81.51 347.8 Fr6.23 28.7 287.0 430.5 574.0 717.5 861.0 60 143.78 135.26 121.41 106.5 95.85 357.0 P5.21 28.7 287.0 430.5 574.0 717.5 861.0 60 143078 135.26 121.41 106.5 95.85 357.0 1/ Mean effective pressure at various speeds = Maximum steam pressure x a factor obtained from test plant data and _1 interpolated for specific cut-offs. g C = Cylinder diameter (inches) S = Length of piston stroke (inches) B 2 Driving wheel diameter (inches) Approved For Release 2004/01/20: CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R..E-T Table 15 Cylinder Tractive Force 11 (pounds) Locomotive TVoe 10 mob 15 moh 2a-M2h 25 mph 301;mph 50.17 48.744 45.635 40.793 35.956 31.789 SO-19 50,821 47,016 42.178 38.028 33,876 L 48.926 45,805 40.946 36,090 31.908 Yea 114.593 41.255 37.008 33.381 29.713 Tel 42.773 40,044 35,797 31:550 27,909 Yes 42.773 40.044 35.797 31.550 27.909 ,Tem 44,593 41.255 37.008 33.381 29,713 E 41,781 39.114 34.968 30.819 27.261 Era 43.906 40.793 35.956 31.806 28,349 Fig 41,781 39,114 34,968 30.819 27.261 Er 43.906 40.793 35,956 31.806 28,349 Fa.20 51.329 48,288 43.343 38.021 34,218 FD-21 51.329 48.288 43,343 38.021 34,218 3.1 Formula used to calculate cylinder tractive force at various speeds: CTF = Me D X C2 X S Map nean effective pressure at various speeds - maximum steam pressure x a factor obtained from test plant data and interpolated for specific cutoffs and speeds. (ght Steall Locomotive, Ralph P. Johnson, 1942) C Cylinder diameter (inches) S Leneth of piston stroke (inches) D lt Driving wheel diameter (inches) S.E.C-RrE-T Approved For Release 2004/04107 CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T b. Inventory There are no recent accurate estimates of the Soviet freight locomotive inventory. Table 16 which lists estimated production and imports of freight locomotives in the U.S.S.R. to 1955 (with updating to 1956 for recently-produced types), provides an indication of present inventory. The list does not include certain older and imported types, despite the fact that some of these are still in use. Since retirements of the types listed are believed to have been small, it is estimated that these retirements would be approximately balanced by older types still in use. 2. Freight Cars a. Types in Use Table 17 gives the specifications of Soviet freight cars of which there are believed to be significant numbers. Soviet-built freight cars0 other than tank and bitumen bunker cars, generally have wooden sides; a large part of the newer all.steel cars in the U.S.S.R. were imported from the European Satellites. A high percentage of the freight car park is equipped with automatic couplers of the Allison type, which have a fixed knuckle, cOmpared with the movable knuckle of U. S. couplers. :it present, a small number of cars still have hook and link non-automatic couplers. These are probably all the older cars which lack center sins. Host of the Soviet freight cars utilize air brakes similar to the Westinghouse type used in the U. S. A small percentage of freight cars of each type include a small brakemen's box. This box, which may be either enclosed or open, is used somewhat the same way as a caboose in the U. S. The weighted average length over buffers per physical car in the Soviet Union, based on the inventory shown in Table 18 is as follows: Weighted Average Length over Buffers Car T'srm, 11.1.110.....??????1111101hatil?111101111.1001.1.111. Box 34.3 Flat 36.5 Open Top 2406 Tank 36.0 Refrigerator 40.4 All Cars 37.1 -69- Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C-R-E-T Table 16 Estimated USSR Freight locomotive Inventory. Produced in St,efm locomotives USSR 1955-56 Year First Produce: A_ 1/ -' Imortled Number Cquntry Year S0.17 g, 50-18 X/ 5049 L 2 I hi, Number 2.955 710 1.135 3.911 1934 1938 1936 1945 lef 2W 242 US 1915 Tea 106 us 1915-16 Yek V 50 Canada 1915 Tel 475_, US 1916-17 Yea 2.750 44 us 1944 Tem 429 X US 1945 Eu 3,665 1926 Em 4.445 1932 Er 2.190 1934 Er-49 2.000 Hungary, 1950- Poland present Rumania P-38 2f 1949 LV 26 1952 FD-20 -\ 1938 FD-21 2- 3.218 1941 Sub-Totals T:53r 22.257 Total, Steam V 28,309 1ocopottves V1-19 145 1932 VL-22 39 1938 VL-22m 1.094 84 1947 17L-23 9 1955? 11 1954 N.0 4 12/ 1955? Total, Electric 11/ astaliztE Ealstrig.,10.2=ma 1.412 TE-1 294 1943 TE-2 505 1948 TE-3 21 1953 TE.4 1 1952? TE-5 2 1948? Total, Diesel-electric 131 ?Tir Grand Total 21 30,5144 1 It should be noted that the figures shown here for individual locomotive types represent production and import and do not represent present total inventories of these locomotives0 since some of them have been retired. It appears, however, that the retirement rate on these locomotives are probably low. This would probably be balanced by small numbers of old locomotives not shown above which are still in use. Therefore, the totals shown for each major type (steam, electric, and diesel) are believed to approximate present inventory. 3./ Soviet sources normally give specifications only for the SO and SOK or the SO-17 and S0-19 locomotive. It is assumed that the 8O-18 is the. same as the SO.-.170 21 Originally designated P. for Pobeda. Approved For Release 2004/01/20 : 93k-RDP921301090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Car TYPO Box Cars Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S.E.C.R.E.T Table 17 Specifications of Major Soviet Freight Cars ai Number Of Axles Cemoitv Metric Short Volumetric ;pad? Dimensions (ft),i Capacity, ZgrA. Length width bait 411/ Short _12n.a 1936-48 1928-36 1928-9 ,/ rebuilt al 1914 Flat Cars metal side wooden sides no sides wooden sides wooden sides for manganese wooden sides hi wooden sides= Open Top Cars Gondola, metal Gondola* wooden Gondola. metal Gondola, wooden Hopper, wooden Hopper, metal Tank Cars viscous PCL POL bitumen bitumen POL alcohol g alcoh acid LI sulfuric acid Refrigerator Cars wooden wooden woodenm metal metal wooden Bitumen Bunker Cara Bunker 14. 14, 4 2 2 2 2 4 4 L. 4 2 2 2 4 4 4 2 4 2 4 4 4 2 2 2 4 4 4 4 4 4 4 4 2 4 50 50 60 20 20 20 16.5-18 60 60 60 50 20 20 16.5-18 16.5-18 60 60 57 16.5-18 50 25 50 50 50 25 25 20 50 50 50 30 30 28.5 32 30 19 40 55 55 66 22 22 22 18.2-19.8X 66 66 66 55 22 22 13.2-19.8 18.2-19.8 66 66 62.8 18.2-19.8 55 27.5 55 55 55 27.5 27.5 22 55 55 55 33 33 31.4 35.3 33 21 44 25.0 25.8 24.2 12.6 11.5 10.9 9.0 24.2 24.2 23.2 20.3 10.2 9.8 8.1 7.3 24.7 25.0 28.1 7.9 23.2 13.5 28.3 24.0 27.6 14.9 1201 19.8 27.0 25.4 26.4 35.2 34.7 34.7 36.LI? 46.0 19.8 24.2- 43.1 44.0 8.7 42.7 8.7 44.0 0.7 21.5 8.7 20.9 8.7 22.5 8.7 20.9 8.7 43.7 9.1 42.3 9.1 42.7 10.1 42.4 9.1 2967 9.A 21.2 9,0 29.7 9.0 20.6 8.8 39.4 9.5 39.4 9.7 42.4 9.4 20.9 9.0 28.0 9.8 18.6 9.2 OW.1, ' 41,001 -WO 4.fin 00030 43.7 8.5 33.5 ? 8.5 33.2 a 8.9 33.5 -la' 8.9 48.0 ,,, 8.4 ZLIO. 1Y 8.9 damm tomb 7.9 8.2 7.9 3.2 7.2 7.5 7.2 1.6 1.6 1.6 2.0 2.0 1.6 1.6 6.2 6.2 5.2 3.9 10.1 9.5 MOM 41.M 0.4111 0.00 rde. 420. 7.2 7.5 8.5 7.9 6.9 8.5 ON MD 3157 3157 3184 160 1377 1578 3.378 4.110 .A0 a- -a CPSW 604 .009 mmoM 2288 2359 2119 773 ci 2094. 45 918 d't 1766 1766 1766 883 883 883 1766 918 883 2277C 1826 21 2263 41/, 2083 2295 .0 1681 2-41 1483 110 1667 20 72. Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-E-C.RwE-T Table 18 Sstimated Soviet Freight Car Park Beginning 1954 (in Thousands of Physical Car Units) Tank Capacity Open" Acid & Bitumen Ail (metric tons) Au MAI Too Al Zat, Other Refrk?erotor Bunker Other Leal 12.5 . - . 15.2.15,9 .- . 16.5 * * 18 167 60 ; g 19 20 17 al. 41 25. 1 Other.2-axleg Totala-axle 184 141 9 28.5-32.0 - 40 * 9 50 117 1 1 57 - 60 5 65 70 plus / * Othar.4.axle21. Tota1.4-exle 122 8; Grand Total 306 226 . 2 . . . . * . . * - - . - - * 2 * - - - - - 231 . - ,, 1 . . 1 - 221 . . . 104 24 1 . . . 26 . . . - 10 10 26 3 1 - 10 374 - - 24 - - 24 . . . 2 . 11 35 4 - . - 186 . . . - Il - . . . - 184 . . - - - * . -, . 13 13 55 4 24 2 13 426 81. 7 25 2 23 800 * L089 than 500 units. 1/ These are gondola cars (high sided, with flat drop bottoms) unless otherwise specified. 3J Half cars - open-top cars with high sides and solid bottoms. 1/ Alcohol tank cars. Many Of these consist of a tank within a 2-axle box car. Hopper cars . open top cars with high sides and sloping bottoms which open for the discharge of the load. 25X1 6/ Includes a very small number of hopper cars; remainder are gondola cars. S-E-C-R-E.T -74 - Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 It should be stressed that these average lengths would be applicable only where the percentage distribution of the car park0 both in terms of car types and in terms of number of axles, approximated that shown in Table 18. Areas which depart significantly from this percentage distribution might have a different weighted average car length. b. Inventory In 1954, the Soviet freight car perk consisted of an estimated 800,000 individual cars (see Table 18), of which slightly more than 400,000 were 4-axle and slightly less than 400,000 were 2-axle (in 1955 it was announced that almost half of the freight cars were 2-ax1e). The park is at present in a state of change as the older 2-axle cars are scrapped and replaced by the newer 4-axle cars. It might be noted that the approximately 400,000 2-ax1e freight oars included in the 1954 park are equivalent in carrying capacity to 145,000 4axle freight cars (the weighted average capacity of Soviet 2-axle freight cars, based on Tables 17 and 181/, is 19.1 tons; the weiptted average capacity of Soviet 4-axle freight cars is 52,6 tons). D. Operation of the Railroad 1, Yard OperatiOn Classification yards on the Trans.Siberian Railroad, with but few exceptions, classify for destination along one line, rather than by direction as on a rail net which dispatches trains in several directions at each large yard. For example, Krasnoyarsk, Ilanskaya, Irkutsk II, Chita and SkovorodinO all have classification yards which classify trains only in the direction of the main line, They do, however, perform the useful function of forming blocks of cars or entire trains according to their point of termination along the line, thus allowing maximum movement without reclassification for these "blocks" or trains. The one notable exception is Inskaya yard near Novosibirsk which classifies for several directions; Note that capacity of 2-ax1e oars is not the same as capacity of 2-axle units as shown in Table 19. The latter reduces four-axle cars to two-axle units and averages these in with two-axle cars, resulting in a higher figure. SFEZ-R.E.T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S-Z-CAL4-T the Trans-Siberian mainline, several points in the Kusnets basin, and the Turkestan Siberian Railroad. iloceuse the Transimalberian railroad is for all practical purposes the Bele means *feast:west freight movement for the cities arid tOens along the line* tau yards along this rail line, therefore. perform a large amount of 10081 freigbt work. This consists of the breakup and assembly of trains for industrisl complexes such as Novosibirsk. Irkutsk. Krasnoyarsk and Khabarovsk to loading and unloading of everything from sewin7 machines to firewood for Slyudyanka and Ushumun. lards located at engine depots or turnaround points also have the responsibility for relaying trains through these terminals* 2. Freight Train Operation a. Types of Freight Trains The USSR has in recent years organized freight movement and set up a train priority system belied on some general train categories. These categories, in order of their frequency of appearance on the Trans- Siberian main line., are as follows: (1) Local and Sectional Freight Trains Local freight trains consist of miscellaneous freight trains (ebornyy poyezd)? which operate only within one division, dropping off and picking up cars at intermediate points. Sectional trains (gruppavoy poyezd) are made up of blocks of cars destined for 210 more than three points, and are principally longer distance trains intended for movement through several large centers. (2) Through Freight Trains (marshruts) A considerable number of freight trains on the Trans- Siberian railroad operate as marshruts. Marshruts are through trains, generally intended to move more than 500 kms, without reclassification. They are 7enerally divided into two types: (a) Assembled marshruts (stupenchatyy mershrut), which consist of cars loaded at several stations and combined into a long-distance train at an assembly point. Loading dates for such trains are fixed in advance. (b) Shippers' or dispatch marshruts. These are cars sent from one station, by one or more shippers. Assembled marshruts would be employed for miscellaneous freight originating SC-RET Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 in the industrial areas of the Urals and European USSR; shippers marshruts would be employed for trainloads of one commodity such as coal timber0 grain. and PCL which originate in trainload lots at one Shipping center. However, even the latter items of bulk freight would in some cases be assembled marshruts because there are also many points which do not produce in trainload lots, such as small timber and grain loading points. The Soviets claim that the use of marshruts reduces transit time by approximately ene.half compared with normal train movement, primarily by reducing time in yards for reclassification. (3) Blue Trains In 1955 the Soviets introduced Blue Trains, which are marshruts intended to travel an average distance of 610 km. (379 miles) per day, and for. distances of over 2.500 km. (1.550 miles) without reclassification. b. Signalling and Dispatching Automatic block signals found from Omsk toAchinsk (750 miles). and Irkutsk to Slyudyanka (79 miles) are operated by a track circuit which is activated by the steel train wheels and axles,. The effect is simply that of closing the circuit between the two rails. Thus each train automatically protects itself by tripping each signal it passes, turning it to "stop" and the next signal back to "approach". Under this type of control train movement on the line is authorized by signal indication.. In addition, trains enter7or leave stations only on authority of enter-.station and leave.. station signals, controlled by the stationmaster. Locomotives on linear with automatic block signal systems may be equipped with cab signals, which repeat the aspect shown on the track-side .signal? and with automatic train control, which stops a train when it passes a restrictive signal without acknowledging the restrictive aspect. In automatic block territory, a green signal authorizes a train to move over the next block at normal speed; a yellow signal authorizes it to move at restricted speed. When a red signal is displayed the chief conductor must wait two minutes and then, if the signal does not change to yellow, must join the engineer and the train must proceed to the next signal at a speed not over 15 km/hr (9.3 mph). Normal -T Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20: CIA-RDP92601090R000300020032-8 Operation on the Trans-Siberian is on the right-hand track. Vowever, on sections equipped with automatic block, trains may be dispatched over the left.hand track. In this case, automatic block signalling is suspended and movement is atthorized by written train orders. A so-called "semiautomatic" block system is assumed to be in operation on the Achinsk-Irkutsk section (790 miles). This means that en Intermediate control paint 18 placed midway between block Stations. This aspect of the Signal which is displayed at this intermediate control point is controlled by the station which the train is approaching. Movement is authorized by signals rather than by written train orders. 25X1 Double Heading of Trains liouble heading is 25X1 frequently employed on steam-operated sections of the Trans-Siberian railroad from Novosibirsk eastward, Trains are double-headed from division point to division point as well as on short sections with unusually steep grades. On the triple track section west of Chitae and probably also on the triple track section east of Ulan-Ude, a pusher locomotive is Used to help trains over -the short section of ruling grade. While double-headed trains are essential for maximum train tonnage in the direction of heaviest freight movement; it is apparent that very often train's are double-headed in the opposite direction simply to balance power, despite the fact that the train may be relatively light and may not, therefore; require the use of two locomotives, 3.? Freight Car Operation 00 Average Car Capacity and Tare 'Weight Table 19 ehows for -each freight car type in the Soviet Union the weighted average capacity; and weighted average tare, given both per physical unit and per two-axle tnit. S-E04-114.E.T Approved For For Release 2004/01/20: CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 S.EX-71,-ZAT Table 19 USSR Weighted Average Freight Car Capacity and Tare TATAZIMailANITAUSARMILEtehteAverae Per Physical .1=k. MT Short Tons Per Z.-axle,/ Unit 'a Per Physical Unit Per 2.ax1e Unit ij VT Short Tons IV Short Tons VT Short Tons Box 31 34.2 22 24.3 14 15.4 10 11.0 Flat 33 36.4 24 26.5 13 14.3 10 11.0 Open Top 57 63.0 29 32.0 21 23.2 11 12.1 POL Tank V 41 45.2 25 27.6 19 21.0 11 1201 . Refrigerator 29 32.0 15 16.6 31 34.2 17 18e8 Weighted Averagea/ 37 40.8 24 26.5 16 17.7 Il 12.1 lj Average for each car type is weighted on the basis of data for the various capacities of cars within that type0 as shown in Table 17 2/ In this calculation, a 4eax1e car is reduced to two 2eax1e cars, 2/ capacity in terms of water. Calculations exclude alcohol, acid and chlorine tank cars. 1g Including all cars shown in Table 18. b. Net Tons per Car The weighted average net load per car, by major commodity types, is shown in Table 20. For each commodity the ratio of norms (required tonnage) for load per car to car capacity were obtained from Soviet sources, and the ratios were weighted on the basiseaf the distribution of car types and capacities shown in Table 18, The resultant ratios shown in Table 20 were then multiplied by the average car capacity in Table 19 to provide an average net load. In the instances where data was available from other sources, it appears that the Soviets do load cars to norm, While there is some underloading of cars, it is also permissible to overload cars slightly, which is believed to balance the underloading. Soviet railroad regulations state that the load in a car should not, as a rule, exceed the carrying capacity of the car. Excess load discovered when a car is weighed need not be unloaded if it does not exceed the carrying capacity of 16.5. 18. and 20 metric-ton cars by 0.5 metric tons; 50eton boxcars by 300 tons; and for all other 4-axle cars. by 1.0 tons. Recently. the Soviets have raised the permissible load on some 50 meiria..ton box cars to 60 metric tons. This is painted on the sideof the car where the 50..ton capacity is shown normally* and the 60-ton capacity is shown in parentheses. Approved For Release 2004/01/20751A-RDP921301090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Table '20 USSR Weightedli Average Net Load Per Car By Major Commodity Types Weightecili Ratio of Net Weighted' Average Net 9030 jazd Load to Car aoaeitv?1 Load - Per Physio, cal. Unit Per 2-840 Per Physi- c4 Unit Per 2.4140 Unit V ET Short Tons MT Short Tons Grain Box 97 98 30 33.0 22 24.3 Coal Box 101 102 31 34.2 23 25.4 Open Top 101 101 57 63.0 30 33.1 Flat 81 72 27 29.8 18.8 Coke 2/ Box 87 82 27 29.8 19 21.0 Open Top 70 69 40 44.1 20 22.0 Timber and Lumber Box 87 85 27 29.8 19 21.0 Open Top 63 63 36 39.7 19 21.0 Flat 89 85 30 33.0 20 22.0 Ore Open Top 100 100 57 63.0 29 32.0 POL PCL Tank 83 82 34 37.5 20 Al 22,0 Lif Mineral Building Materials Box & Open Top 100 loo 39 41.0 25 27.6 Flat 84 84 28 30.9 20 22.0 Iron & Steel Box.Flat.Open Top 100 100 37 40.8 25 27.6 Meat & Perishables Refrigerator 70 70 20 22.0 11 12.1 (Includes Canned Box 83 79 25 27,6 17 18.8 Foods) Miscellaneovs Freight If All Types 42 42 16 17.7 10 11.0 For each commodity, the ratio of loading north for each car type to car capacity was calculated. For each ear type, these ratios were then weighted on the basis of the distribution of car capacities shown in Table 17. In this calculation. a 4-axle car is reduced to two 2-axle cars, Loading of coke on flat cars is stated in norms for only 2-ax1e types, In this ease, loading approximates 74 percent of marked car capacity. Soviet figures on tonnage of PC L loaded per car are given in terms of a unit which is roughly equivalent to a one-axle car. This, therefore, results in Soviet figures of about 10 tons of PCL per "car", compared with the 20-ton firure shown in this table, which is the figure for a two-axle car unit. Carloadings of tank cars are calculated according to the capacity of the car as follows: Tank Car Capacity tal Number of Up to 20 1 20 to 25 2 26 to 40 3 Above 40 21. Approved For Release 2004/A-: CIA-RDP92601090R000300020032-8 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 On this basis, the normal 4..axle tank car, with a capacity of 50 metric tons in terms of water, would be considered as 4 carloads. If loaded with PIZ (which has an average weight about 80 percent of an equal 'Came of water), it would be carrying 40 metric tons per carload. It is.eatimated that military freight, other than items listed above, loads to approximately the same tonnage aa miscellaneous freight. Approved For Release 2004/M: CIA-RDP92601090R000300020032-8 25X1 Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8 Next 1 Page(s) In Document Exempt Approved For Release 2004/01/20 : CIA-RDP92601090R000300020032-8