Power type Electric Builder Union Carriage & Wagon Total produced 76 | Designer Mitsui Build date 2009-2013 AAR wheel arr. C-C | |
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The Transnet Freight Rail Class 15E of 2010 is a South African electric locomotive.
Contents
In 2010, Transnet Freight Rail placed the first of seventy-six Class 15E heavy electric freight locomotives with a Co-Co wheel arrangement in service on the Sishen–Saldanha iron ore export line.
Manufacturers
The 50 kV AC 50 Hz Class 15E is the product of a joint venture by Mitsui, who was responsible for the design, Toshiba, who supplied the electrical components, the RSD division of DCD-Dorbyl, who supplied the monoblock cast frame, bolster bogies and drawgear, and Union Carriage & Wagon (UCW), who constructed the bodies. It was manufactured for Transnet Freight Rail (TFR) by UCW in Nigel, Gauteng, who delivered the first locomotives in 2010.
These heavy duty electric locomotives feature Toshiba-made 3-phase AC motors, powered through insulated-gate bipolar transistor (IGBT) control. They are single-cab locomotives, a feature they share with the Class 19E electric locomotives of the Coalink Line, also made with Toshiba technology, the Class 9E Series 1 and 2 electric locomotives of the Orex Line, and electric locomotives of Classes 7E1, 7E4, 11E, 18E, 20E, 21E and 22E.
The initial order was for forty-four locomotives, of which the last were delivered by UCW and accepted by TFR in the first week of August 2011. On 2 March 2011, it was announced in a Transnet press release that, in line with Transnet’s target of achieving 61 million tons per annum on the Orex line, Transnet had signed an agreement with Venus Railway Solutions, a subsidiary of Japan’s Mitsui, and local BEE investors for the supply of an additional thirty-two Class 15E locomotives. Production of these additional locomotives commenced in December 2011, with the first unit delivered by May 2012 and the last by August 2013.
Service
Class 15E locomotives are used exclusively on the 861 kilometres (535 miles) Orex line, to haul export ore from the open cast iron mines near Sishen in the Northern Cape to the harbour at Saldanha Bay in the Western Cape. Most of the route is across the hot and dry Northern Cape, but the last 160 kilometres (99 miles) to Saldanha runs parallel to the Atlantic coastline and is subjected to the fog and salt sea air of the West Coast.
In South Africa, the Orex line is unusual for several reasons.
Mixed power
On the Orex line, General Electric (GE) diesel-electric locomotives run consisted to General Electric Company (GEC) Class 9E and Mitsui Class 15E electric locomotives, to haul the 342-truck iron ore trains. Each truck has a 100-ton capacity and the trains are at least 3.72 kilometres (2.31 miles) in length, powered by mixed consists of Classes 9E and 15E electric, GE type U26C Class 34-000, 34-400, 34-500, 34-900 and GE type C30ACi Class 43-000 diesel-electric locomotives.
The use of mixed electric and diesel-electric power is necessitated by the huge voltage drops which can occur as a result of the long distance between some of the sub-stations along the route, with a supply voltage which can vary between 55 and 25 kV AC and with the lower value voltage sometimes occurring between sub-stations. Electric-only trains would therefore reduce the maximum possible traffic frequency.
A Class 9E or Class 15E electric locomotive serves as the master of each mixed electric and diesel-electric consist, with a total of between nine and twelve locomotives per train, twelve being the maximum number allowed. Before the Class 15E was placed in service in 2010, motive power usually consisted of three sets of locomotives, each set made up of one or two Class 9E electrics and one or two Class 34 diesel-electrics, with each set's leading electric locomotive controlling its respective set of diesel-electrics by means of a slimkabel (smart cable). In effect, each ore train is made up of three separate 114-truck trains consisted together, with the locomotives of all three trains controlled by means of a Locotrol radio distributed power control system by one crew in the leading electric locomotive. A typical train would therefore be made up of locomotive set A, 114 trucks, locomotive set B, 114 trucks, locomotive set C, and 114 trucks.
Some problems were experienced using this configuration and, after a couple of major derailments, the locomotive configuration was changed to four sets, with locomotive set D initially made up of two Class 34 diesel-electric locomotives at the rear end of the train, pushing at between 40% and 50% of tractive power at all times, depending on the grades being traversed. The total maximum number allowed was still between nine and twelve locomotives per train.
As more Class 15Es were delivered and placed in service and with the arrival of the GE type C30ACi Class 43-000 diesel-electrics from 2011, a single Class 9E or 15E electric replaced the pair of Class 34 diesel-electrics in set D. At the same time, the more powerful Class 15E and Class 43-000 also made it possible to use as few as seven locomotives per train, with locomotive sets A, B and C each made up of one Class 15E and one Class 34 or Class 43-000, and set D of a single Class 9E or 15E.
Modification
During 2015, the Class 15E fleet began to be equipped with new multiple unit (MU) hardware and train control and monitoring system (TCMS) software. Modified locomotives carried temporary plaques on its front door, to indicate that the modification had been carried out and to warn train crews that the locomotive may not be connected to an unmodified locomotive by multiple unit jumper cable. Modified locomotives could only be used with unmodified locomotives through the radio distributed power system.
Illustration
The pictures serve to illustrate the Class 15E from all sides.