South African Class 7E
The South African Railways Class 7E is an electric locomotive. South African Railways placed 100 Class 7E electric locomotives with a Co-Co wheel arrangement in service in 1978/79. They were the first 25 kV AC locomotives to enter service in South Africa.
Manufacturer
The 25 kV AC Class 7E electric locomotive was designed for the South African Railways by the 50 c/s Group, consisting of ACEC of Belgium, AEG-Telefunken and Siemens of Germany, Alsthom-Atlantique and Société MTE of France, and Brown, Boveri & Cie of Switzerland. The locomotives were built by Union Carriage & Wagon in Nigel, Transvaal, which was the sub-contractor for mechanical components and assembly.One hundred Class 7E locomotives were delivered in 1978 and 1979, numbered in the range from E7001 to E7100. Beginning with the Class 7E, the SAR numbering practice for electric locomotives was changed to make the class number a part of the locomotive’s number. From the Class 1E through to the last of the Class 6E1 series of locomotives, all electric locomotives were numbered sequentially in the number range from E1 to E2185, with only twelve numbers in the range skipped over the years.
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.
Orientation
These dual cab locomotives have a roof access ladder on one side only, just to the right of the cab access door. The roof access ladder end is marked as the no. 2 end.Judging from early photographs of Class 7E locomotives, the distinctive "eyebrow" rainwater beadings above the cab windscreens were added post-delivery.
Characteristics
Electric equipment
Control of traction and rheostatic braking on the Class 7E is by stepless solid-state electronics. The electrical equipment was designed for high power factor operation, obtained by a sector control method. These were the first South African AC electric locomotives with thyristor technology from the 50 c/s Group.Bogies
The Class 7E was built with sophisticated traction linkages on the bogies, similar to the bogie design which was introduced on the Class 6E1 in 1969. Together with the locomotive's electronic wheel slip detection system, these traction struts, mounted between the linkages on the bogies and the locomotive body and colloquially referred to as grasshopper legs, ensure the maximum transfer of power to the rails without causing wheel slip by reducing the traction force of the leading bogie and increasing that of the trailing bogie by as much as 15% upon starting off.Pantographs
The Class 7E was the first SAR electric locomotive on which the pantograph contact shoe centres were located directly above the bogie pivot centres. This reduces the risk of pantograph hookups on catenary in sharp curves such as in turnouts as a result of sideways movement of the pantograph in relation to the overhead wire.Service
The Class 7E was designed primarily for goods train service on South Africa’s 25 kV AC electrified lines. Until 1978, all electrified mainline routes in South Africa used 3 kV DC, but from that year all new mainline electrification projects bar one used 25 kV AC. The one exception is the Sishen-Saldanha line. There are four isolated 25 kV AC routes.- From Pyramid South to Pietersburg and via Brits to Thabazimbi.
- From Ermelo to the Richards Bay Coal Terminal at Richards Bay.
- From Port Elizabeth to De Aar and from there northward to Kimberley and southward to Beaufort West.
- From East London to Springfontein in the Free State.
The Class 7E was initially placed in service on the coal line from Ermelo to Richards Bay. When later model 25 kV AC locomotives were acquired, a few Class 7E locomotives went to the Pyramid South and East London lines, but the majority were transferred to the Cape Midland system to work goods and passenger traffic from Kimberley via De Aar to either Port Elizabeth or Beaufort West.