Rolls-Royce C range engines
(C6SFL model specifications)
Overview
ManufacturerRolls-Royce Limited
Layout
ConfigurationSix-cylinder, supercharged diesel[1]
Displacement12.17 litres (740 cu in)[1]
Cylinder bore5 1/8 inch (130 mm)[1]
Piston stroke6 inch (152 mm)
Combustion
Fuel typeDiesel
Oil systemDry sump
Cooling systemWater-cooled
Output
Power output190 brake horsepower (140 kW) at 1,800 rpm[1]
Torque output600 lb⋅ft (810 N⋅m) at 1,300 rpm[1]

The Rolls-Royce C range was a series of in-line 4, 6 and 8 cylinder diesel engines used in small locomotives, railcars,construction vehicles, and marine and similar applications. They were manufactured by the Rolls-Royce Oil Engine Division headed by William Arthur Robotham to 1963, initially at Derby and later at Shrewsbury, from the 1950s through to 1970s.[2]

Although officially termed the C range, they were best known for the most common C6SFL six-cylinder variant. Most had an output of around 200 bhp, with 233 bhp for the final models. Their construction was a conventional water-cooled vertical inline 6 four-stroke diesel engine of 12.17 litres (743 cu in). Most were supercharged by a Roots blower, but there were also variants with a turbocharger or naturally aspirated.[1]

A later addition to the range was the SF65C model. This was a lower-rated version of the C range 6-cylinder engine and shared many of the advantages of the range's component rationalisation. It was available in naturally aspirated or turbocharged variants, and both industrial and marine versions were available.[3]

Construction

The engine was constructed around a monobloc cylinder and crankcase casting. Unusually, this was available in either cast iron or aluminium alloy. The cylinders were replaceable wet liners, with pumped water cooling. Valves were single OHV exhaust and inlet valves. Seven bearings with cross-bolted caps supported the nitrided crankshaft. The fuel injection system was direct, into a toroidal combustion chamber within the aluminium pistons. Supercharging was by a Roots blower driven at twice crankshaft speed, for a boost pressure of 8 psi.[1]

An unusual feature was the ability to build the engines with the flywheel and output drive arranged at either end. The supercharger, fuel injection pump, and other auxiliaries also changed sides. Although the crankshaft always rotated the same way within the block, this was the equivalent of offering left and right-handed rotation engines (the C6SFR variant).[1]

For a diesel at its introduction date of 1951, the engine operated at relatively high speed, up to 1,800 rpm. This was assisted by a viscous torsion damper at the opposite end to the flywheel.[1] High rotational speed made the engine an attractive choice in the developing market for small diesel-hydraulic locomotives.

Variants of the C range engine
Model CylindersAspirationLayoutPowerApplication
C4NFL 4 Natural Vertical
C4SFL 4 Supercharged Vertical
C4TFL 4 Turbocharged Vertical
C4NFLM 4 Natural Vertical Marine
C4SFLM 4 Supercharged  Vertical Marine
C6NFL 6 Natural Vertical
C6SFL 6 Supercharged Vertical 190 bhp
C6TFL 6  Turbocharged Vertical
C6NFLH 6 Natural  Horizontal  180 bhp Railcar
C6SFLH 6 Supercharged Horizontal 233 bhp Railcar
C6TFLH 6 Turbocharged Horizontal 315 hp Railcar
C6NFLM 6 Natural Vertical Marine
C6SFLM 6 Supercharged Vertical Marine
C6TFLM 6 Turbocharged Vertical Marine
C8NFL 8 Natural Vertical
C8SFL 8 Supercharged Vertical  300 bhp 
C8TFL 8 Turbocharged Vertical
C8NFLH 8 Natural Horizontal Railcar
C8SFLH 8 Supercharged Horizontal  250 bhp  Railcar
C8TFLH 8 Turbocharged Vertical Railcar
C8NFLM 8 Natural Vertical Marine
C8SFLM 8 Supercharged Vertical Marine
C8TFLM 8 Turbocharged Vertical Marine


Rolls-Royce Sentinel

Sentinel diesel locomotive, badged as Powered by Rolls-Royce

In 1957, Rolls-Royce acquired the Sentinel company of Shrewsbury, a builder of steam wagons and small steam locomotives.[4] Production of the C6 was relocated from Derby. Although Rolls-Royce had only intended to build prime movers, i.e. engines here, by the end of 1957 they had decided to continue with Sentinel's previously successful market for small shunting locomotives. This was initially the LB class, 0-4-0 with a typically Sentinel final chain drive, of 1959-1971.[4]

In the 1980s, the Shrewsbury diesel engine plant was acquired by Perkins Engines.[5]

Horizontal engines

British Rail Class 111 DMU with twin C6NFLH horizontal engines in each power car

The horizontal versions of the C range engine were principally used in railcars / diesel multiple units (DMUs), mounted beneath the floor. "H" in the model number indicated "horizontal". The cylinders were inclined slightly upwards at 17½ degrees. Wet sump lubrication was used.[6] Many of the ancillaries and servicing points were relocated to what were now the sides of the engine, so that they could be serviced from the sides of the railcar, rather than having to lift out floor panels.

Australia

Forty C6SFLH engines (at two under each vehicle) were fitted in 1960 to new South Australian Railways 300 class railcars.[7]:17 of Part 1

Twin supercharged C8SFLH engines of 250 hp were used in some of the early New South Wales 620 Class railcars with Twin Disc transmissions, built under licence.[8]

The three South Maitland Railway railcars of 1961 used supercharged C6SFLH units of 233 bhp with a licence-built Twin Disc transmission.[8]

Canada and Norway

C8SFLH engines and licence built Twin Disc transmissions were used to re-engine a number of Canadian National and Canadian Pacific's Budd railcars.[9]

Norwegian State Railways retrofitted supercharged C6SFLH engines to the Norwegian Class 86 and 91 DMUs.

United Kingdom

The C6NFLH produced 180 bhp at 1,800 rpm. It was used by Metropolitan-Cammell in the Class 111 DMUs of the late 1950s and 1960s, rather than the 150 bhp BUT engines used in earlier classes. Supercharged C6SFLH units of 230 bhp were trialled in a single Class 111 DMU.[6] Two engines were used for each power car, marshalled into two or three car sets with a power car at each end, giving 720 bhp overall. This extra power was also used for the Birmingham Railway Carriage & Wagon Company built "Calder Valley" sets.

An eight-cylinder version, C8NFLH, of 238 bhp at 1,880 rpm was also used. A single unit was used in each power car of the 112 and 113 classes. These were very similar, the 112 having a mechanical pre-selector transmission[10] and the 113 a Lysholm-Smith Twin-Disc torque converter (licence-built by Rolls-Royce) in a hydraulic transmission.[11] The high density 125 and 127 classes used twin engines.

The C8NFLH, governed to 180 bhp at 1,500 rpm, was also used as the pair of auxiliary generators powering the air-conditioning, lighting and galley of the Blue Pullman sets.[12]

Vertical engines

The vertical versions of the C range were installed in many of the British Rail first-generation diesel multiple units. They were also used in a range of small shunting locomotives, sometimes in pairs for power outputs up to 600 bhp:

Marine

The marine variants of these engines were available in each of the 4, 6 and 8 cylinder models. These marine models were all of the vertical arrangement. Marine gearing options included M.R.F.10 3B, M.R.F.16B, M.R.F.16B/1B and M.R.F.21/B units from Self-Changing Gears, of Coventry and Thornycroft Type B units from Transport Equipment (Thornycroft) Ltd. of Reading.[2]

  • Thornycroft 43 ft Range Safety Launch
A pair of C6SFLM (marinised) were used for a speed of 20 knots.[17]

Construction vehicles

Fire appliances

See also

References

  1. 1 2 3 4 5 6 7 8 9 10 Chapman, C.W. (1956). Modern High-Speed Oil Engines. Vol. I (2nd ed.). Caxton. pp. 261–263.
  2. 1 2 Rolls-Royce Diesels Workshop Manual (4th ed.). Rolls-Royce Limited Oil Engine Division. c. 1960.
  3. Rolls-Royce C Range Workshop Manual (11th ed.). Rolls-Royce Motors Limited, Diesel Division. 1983.
  4. 1 2 3 "DH16 Sentinel 0-4-0".
  5. Perkins R/R Commercial Motor 24 March 1984
  6. 1 2 Bolton, William F. (2006) [1956]. The Railwayman's Diesel Manual (4th ed.). Ian Allan Publishing. pp. 69–71, 91–92. ISBN 0-7110-3197-5.
  7. Wilson, Tom; Racliffe, John; Steele, Christopher (2021). Adelaide's public transport – the first 180 years. Adelaide, South Australia: Wakefield Press. ISBN 9781743058855.
  8. 1 2 Cooke, David E. (1984). Railmotors and XPTs. Australian Railway Historical Society (NSW Division). ISBN 0-909650-23-3.
  9. Rolls-Royce Railway Traction Department Newsletter (14 ed.). Rolls-Royce Limited. April 1962.
  10. Bolton (1956), pp. 135–142.
  11. Bolton (1956), pp. 144–145.
  12. 2,000HP Diesel Pullman Trains. British Railways. May 1960. pp. 2, 20. 33003/81.
  13. Gunzburg, Adrian (1989). The Midland Railway Company Locomotives of Western Australia. Melbourne: Light Railway Research Society of Australia. pp. 40–44, 49. ISBN 0909340277.
  14. Class Dsc Diesel-Electric Locomotives New Zealand Railway Observer issue 147 Spring 1976 page128
  15. Bjerke, Thor; Tovås, Ove (1989). Togbytte på Nelaug (in Norwegian). Norsk Jernbaneklubb. p. 200. ISBN 82-90286-10-4.
  16. "NSB Skd 220 194". Flickr.
  17. "RSL-1664: 43ft Range Safety Launch". British Military Powerboat Team.
  18. "Rugged reliability: The Vickers VR180 Vigor". Archived from the original on 14 October 2008.


Further reading

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