South African Class 6E1, Series 11 Explained

South African Class 6E1, Series 11
Powertype:Electric
Designer:Union Carriage & Wagon
Builder:Union Carriage & Wagon
Buildmodel:UCW 6E1
Builddate:1984-1985
Totalproduction:45
Rebuilder:Transnet Rail Engineering
Rebuilddate:2001-2005
Numberrebuilt:45 to Class 18E, Series 1
Aarwheels:B-B
Uicclass:Bo'Bo'
Britishclass:Bo-Bo
Wheeldiameter:12202NaN2
Wheelbase:11279frac=8NaNfrac=8
Bogie:3430frac=8NaNfrac=8
Pivotcentres:7849frac=8NaNfrac=8
Pantoshoecentres:6972frac=8NaNfrac=8
Over Couplers:15494frac=8NaNfrac=8
Body:14631frac=8NaNfrac=8
Width:2896frac=8NaNfrac=8
Pantodown:4089frac=8NaNfrac=8
Bodyonly:3937frac=8NaNfrac=8
Axleload:22447kg (49,487lb)
Weightondrivers:89788kg (197,949lb)
Locoweight:89788kg (197,949lb)
Electricsystem:3 kV DC catenary
Tractionmotors:Four AEI-283AY
T/M Amps 1 Hr:623kW
T/M Amps Cont:563kW
Gear Ratio:18:67
Locobrakes:Air & Regenerative
Trainbrakes:Air & Vacuum
Coupling:AAR knuckle
Maxspeed:113km/h
Poweroutput 1 Hr:2492kW
Poweroutput Cont:2252kW
T/E Starting:311kN
T/E 1 Hr:221kN
T/E Continuous:193kN @ 40km/h
Operator:South African Railways
Spoornet
Operatorclass:Class 6E1
Numinclass:45
Fleetnumbers:E2141-E2185
Deliverydate:1984-1985
Firstrundate:1984
Lastrundate:2005

The South African Railways Class 6E1, Series 11 of 1984 was an electric locomotive.

In 1984 and 1985, the South African Railways placed forty-five Class 6E1, electric locomotives with a Bo-Bo wheel arrangement in mainline service.[1]

Manufacturer

The 3 kV DC Class 6E1, Series 11 electric locomotive was designed and built for the South African Railways (SAR) by Union Carriage & Wagon (UCW) in Nigel, Transvaal. The electrical equipment was supplied by the General Electric Company (GEC).[2]

Forty-five locomotives were delivered in 1984 and 1985, numbered in the range from E2141 to E2185. These were the last Class 6E1 locomotives to be built. Like Series 6 to 10, the Series 11 units were equipped with AEI-283AY traction motors. UCW did not allocate builder's numbers to the locomotives it built for the SAR, but used the SAR unit numbers for their record keeping.[1]

Characteristics

Orientation

These dual cab locomotives had a roof access ladder on one side only, just to the right of the cab access door. The roof access ladder end was marked as the no. 2 end. A corridor along the centre of the unit connected the cabs which were identical apart from the fact that the handbrake was located in cab 2. A pantograph hook stick was stowed in a tube mounted below the lower edge of the locomotive body on the roof access ladder side. The locomotive had one square and two rectangular access panels along the lower half of the body and a large hatch door on the roof access ladder side, and only one square access panel and a large hatch door on the opposite side.[1]

Series identifying features

The Class 6E1 was produced in eleven series over a period of nearly sixteen years. While some of the Class 6E1 series are visually indistinguishable from their predecessors or successors, some externally visible changes did occur over the years.[1]

Series 8 and later locomotives could be distinguished from all older models by the large hatch door on each side, below the second small window to the right of the side door on the roof access ladder side and below the first window immediately to the right of the door on the other side.[1]

The Series 9 to Series 11 locomotives were visually indistinguishable from each other, but could be distinguished from all earlier models by the rainwater drainage holes on their lower sides. These holes were usually covered by so-called buckets, but the covers were absent on several locomotives. Another distinction was the end doors which were recessed into the doorframes on Series 9 to Series 11 locomotives, compared to earlier models which had their end doors flush with the doorframes. In addition, on Series 9 and later models the split side window on the driver's assistant side was replaced by a single rectangular side window with rounded corners. Finally, unlike all earlier models, all four doors on Series 9 to Series 11 locomotives had rounded corners.[3]

Crew access

The Class 5E, 5E1, 6E and earlier 6E1 locomotives were notoriously difficult to enter from ground level since their lever-style door handles were at waist level when standing inside the cab. This made it impossible to open the door from outside without first climbing up high enough to reach the door handle while hanging on to the side handrails with one hand only. Crews therefore often chose to leave the doors ajar when parking and exiting the locomotives.[4]

Side doors with two interconnected latch handles on the outside, such as those which were introduced on the Class 7E1 with one outside handle mounted near floor level and the other at mid-door level, were also introduced on Class 6E1 locomotives, beginning with Series 9.[5]

Service

The Class 6E1 family saw service all over both 3 kV DC mainline and branch line networks, the smaller Cape Western mainline between Cape Town and Beaufort West and the larger network which covers portions of the Northern Cape, the Free State, Natal, Gauteng, North West and Mpumalanga.[6]

Rebuilding to Class 18E

In 2000 Spoornet began a project to rebuild Series 2 to 11 Class 6E1 locomotives to Class 18E, Series 1 and Series 2 at the Transnet Rail Engineering (TRE) workshops at Koedoespoort. In the process the cab at the no. 1 end was stripped of all controls and the driver's front and side windows were blanked off to have a toilet installed, thereby forfeiting the locomotive's bi-directional ability.[7] [8]

Since the driving cab's noise level had to be below 85 decibels, cab 2 was selected as the Class 18E driving cab primarily based on its lower noise level compared to cab 1, which was closer and more exposed to the compressor's noise and vibration. Another factor was the closer proximity of cab 2 to the low voltage switch panel. The fact that the handbrake was located in cab 2 was not a deciding factor, but was considered an additional benefit.[8]

While the earlier Class 6E1, Series 2 to 7 locomotives had been built with a brake system which consisted of various valves connected to each other with pipes, commonly referred to as a "bicycle frame" brake system, the Class 6E1, Series 8 to 11 locomotives were built with an air-operated equipment frame brake system, commonly referred to as a brake rack. Since the design of the rebuilt Class 18E locomotives included the same brake rack, the rebuilding project was begun with the newer series 8 to 11 locomotives to reduce the overall cost of rebuilding.[8]

The Class 6E1, Series 11 locomotives which were used in this project were all rebuilt to Class 18E, Series 1 locomotives. All forty-five Series 11 locomotives were rebuilt by April 2005. The numbers and renumbering details of the rebuilt units are listed in the table.[6] [9]

Liveries

All the Class 6E1, Series 11 locomotives were delivered in the SAR red oxide livery with signal red cowcatchers, yellow whiskers and with the number plates on the sides mounted on three-stripe yellow wings.[10]

Notes and References

  1. South African Railways Index and Diagrams Electric and Diesel Locomotives, 610mm and 1065mm Gauges, Ref LXD 14/1/100/20, 28 January 1975, as amended
  2. Web site: UCW - Electric locomotives. The UCW Partnership. 30 September 2010 . https://web.archive.org/web/20071012023401/http://www.ucw.co.za/pdf/electric_loco.pdf . 12 October 2007.
  3. http://grela.rrpicturearchives.net/showPicture.aspx?id=1865687 18-050 (ex Series 9 E2013) with recessed end door and rounded door corners
  4. http://grela.rrpicturearchives.net/showPicture.aspx?id=1513594 E1882 with high mounted door handle
  5. http://grela.rrpicturearchives.net/showPicture.aspx?id=1861924 18-253 (ex Series 9 E2058) with two door handles
  6. Railways of Southern Africa Locomotive Guide, 2002 Edition, (Compiled by John N. Middleton), p57, as amended by Combined Amendment List 4, January 2009
  7. Railways of Southern Africa Locomotive Guide, 2002 Edition, (Compiled by John N. Middleton), p57, as amended by Combined Amendment List 4, January 2009
  8. Information gathered from the rebuild files of individual locomotives at Transnet Rail Engineering's Koedoespoort shops, or obtained from John Middleton as well as several Transnet employees
  9. Information gathered from the rebuild files of individual locomotives at Transnet Rail Engineering's Koedoespoort shops
  10. https://sites.google.com/site/soulorailway/home/system-7-1/south-eastwards-as-far-as-volksrust-2nd-section-wattles-to-union-junction-by-les-pivnic Soul of A Railway, System 7, Western Transvaal, based in Johannesburg, Part 9. South-Eastwards as far as Volksrust (2nd part) by Les Pivnic. Caption 4.