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The EMD 265H had a bore of 265 millimetres (10.4 in) and stroke of 300 millimetres (12 in) (so that the displacement per cylinder was 1010 cubic inches) with the 16 cylinder GM16V265H rated at 4,700 kilowatts (6,300 hp) at 1000 rpm, with a brake mean effective pressure of 21.3 bars (2,130 kPa). [1]
The "S" designation originally stood for six hundred horsepower and the "N" designation for nine hundred horsepower, although they were used for the more general designation of smaller and larger engine models after the more powerful 567 model engines replaced the Winton engines. The "C" designation stood for cast frame locomotives and the "W ...
The 567 engine was continuously improved and upgraded. The original six-cylinder 567 produced 600 hp (450 kW), the V-12 1,000 hp (750 kW), and the V-16 1,350 hp (1,010 kW). EMD began turbocharging the 567 around 1958; the final version, the 567D3A (built from October, 1963, to about January, 1966) produced 2,500 hp (1,900 kW) in its V-16 form.
EMD 12-567C: Engine type: ... capable of producing 1,200 horsepower (890 kW). ... CN 1401 is now CCGX 1009, CN 1435 is CCGX 1010.
EMD 1010; G. GM Ecotec Diesel (1997) H. Hercules DFXE; Hulsebos-Hesselman axial oil engines; I. IKCO EF engines; Institution of Diesel and Gas Turbine Engineers;
Model Build date Total produced Wheel arrangement Prime mover Power output Image 60-ton: 1924–1928: 26: B-B: Ingersoll-Rand 10 in × 12 in (254 mm × 305 mm): 300 hp (220 kW) 100-ton
The EMD F-units followed the basic B-B truck design of the TA model, but with a V-16 EMD 567 prime mover generating 1350 hp as introduced in 1939. E-units standardized the two engine configuration for passenger locomotives to maximize power and, while the less-reliable Winton Diesel prime movers were in use, faced a less severe loss of power ...
It features a new 4-stroke engine called the EMD 12-1010 "J" series - a V12 with 1,010 in 3 displacement for each cylinder. This new prime mover has a two-stage turbocharger system consisting of three turbos; one turbo (the primary/high pressure turbo) for low-mid RPM and two turbos (the secondary/low pressure turbos) for mid-high RPM.