Cosworth GMA | |
---|---|
Overview | |
Manufacturer | Cosworth |
Production | 2020–present |
Layout | |
Configuration | V12, naturally-aspirated, 65° cylinder angle |
Displacement | 3,994 cc (4.0 L; 243.7 cu in) |
Cylinder bore | 81.5 mm (3.21 in) |
Piston stroke | 63.8 mm (2.51 in) |
Cylinder block material | Aluminum alloy |
Cylinder head material | Aluminum alloy |
Valvetrain | 48-valve, DOHC, four-valves per cylinder |
Compression ratio | 14:1 |
Combustion | |
Fuel system | Direct fuel injection |
Oil system | Dry sump |
Cooling system | water-cooled – twin-aluminium front radiators |
Output | |
Power output | 607–725 hp (453–541 kW) |
Torque output | 320–358 lb⋅ft (434–485 N⋅m) |
Dimensions | |
Dry weight | 162–178 kg (357.1–392.4 lb) |
The GMA is a 4.0-litre, naturally aspirated V12 engine, commissioned by Gordon Murray, and developed and produced by Cosworth for the Gordon Murray Automotive T.50 & T.33 sports cars. The road-going engine is rated at 663 PS (488 kW; 654 hp) at 11,500 rpm, with a max torque figure of 467 N⋅m (344 lbf⋅ft) at 9,000 rpm,[1] making it the highest revving road car engine ever produced.[2] The engine is also more powerful than the 6.1 L (6,064 cc) S70/2 V12 engine used in the McLaren F1, making more power from four litres than the S70/2 made from 6.1 litres.
Background
For its first vehicle, GMA enlisted trusted engine designer Cosworth, who had worked alongside Murray in the past, to design, produce and manufacture a brand new exclusive V12 engine to power the T.50.
Cosworth's outline commissioned by GMA was simple; the engine had to be lightweight. It had to have the quickest response time of any engine ever designed for road use, replicating the goals set for the renowned McLaren F1. Cosworth was tasked with delivering the highest-revving engine ever made for a production car with unrivalled power-to-weight. The brief also extended to aesthetics and aural experience by creating a unique V12 with great sound quality and visual aesthetics. It uses a streamlined design with no coverings or belt-driven ancillaries. A special focus was given to offering the purest driving experience, in keeping with the prevailing ethos of the T.50. Alongside being able to deliver supreme performance, the engine was also required to meet modern emissions standards.
An important part of the outline was to make the displacement of the T.50’s engine as small as possible. With a clear view of the necessary torque and acceleration and the aim of a vehicle weight under 1,000 kg, they proposed the capacity to be just 3.9-litres while still accomplishing supercar-like performance. It will be the highest-revving, quickest responding, most power per litre, and lightest naturally-aspirated V12 engine ever fitted to a road car. Meticulously engineered and produced, the unit combines the collective knowledge and expertise of Gordon Murray and Cosworth to be the most unique, engaging, and driver-oriented V12 engine ever manufactured.
The T.50’s version of the GMA V12 engine generates high-end power of 663 PS (654 hp) at 11,500 rpm, and it is also said to be compliant for everyday use. The maximum torque figure of 467 Nm (344 ft-lb) is produced at 9,000 rpm, but the solution to guaranteeing everyday usability is that 71% of the engine’s available torque will be offered from as low as 2,500 rpm. The T.50 engine delivers the highest power per unit displacement of any naturally-aspirated road car engine ever created, at 166 PS per litre. This feat, along with how light the unit is, puts this motor right at the top of naturally aspirated powertrain development. To achieve the lowest weight possible the block in the T.50 is constructed from a high-strength aluminium alloy, the crankshaft is made from steel, weighing in at only 13 kg (29 lb), and the connecting rods and valves are built from titanium, same with the clutch housing. All of these factors contribute to an engine weight of only 178 kg (392 lb), which is an additional record for a road car.[3]
Variants
A more powerful, track-only, racing version of the GMA engine will also be produced, and is set to be used in a racing-focused variant of the T.50, called the Gordon Murray Automotive T.50s Niki Lauda. Power and torque figures for the T.50s have been substantially boosted over the standard road car's engine; now producing 711 PS (523 kW; 701 hp) @ 11,500 rpm, and 485 N⋅m (358 lbf⋅ft) @ 9,000 rpm, an increase of 48 PS (35 kW; 47 hp) and 18 N⋅m (13 lbf⋅ft) over the standard car. This output raises even further, to 735 PS (541 kW; 725 hp) @ 11,500 rpm, thanks to a ram-air intake. The T.50s also now generates about 138.7 kW (188.6 PS; 186.0 hp) per litre.[4] The racing version of the GMA engine also has had various tweaks, including the catalytic converters from the exhaust system removed, narrower inconel walls, and smaller mufflers, now weighing 162 kg (357 lb). It's 16 kg (35 lb) lighter than the T.50's engine, making it the lightest V12 engine of all time.[5]
Engine specifications
- Engine type: V12
- Capacity: 3,994 cc (4.0 L; 243.7 cu in)
- V angle (deg.): 65°
- Aspiration: Naturally-aspirated
- Bore: 81.5 mm (3.2 in.)
- Stroke: 63.8 mm (2.5 in.)
- Compression ratio: 14:1
- Max power output: 615–735 PS (452–541 kW; 607–725 hp) @ 10,500 rpm-11,500 rpm
- Max torque output: 435–485 N⋅m (321–358 lbf⋅ft) @ 9,000 rpm
- Flexibility: 71-75% of max torque at 2,500 rpm
- Maximum rpm: 12,100 rpm
- Valvetrain: double overhead camshafts, inclined axis, 4 valves per cylinder – variable valve timing on inlet / exhaust
- Induction system: RAM induction airbox – 4 throttle bodies – Direct Path Induction Sound
- Exhaust system: Inconel and Titanium
- Lubrication system: dry sump
- Cooling system: water-cooled – twin-aluminium front radiators
- Oil cooling system: Single aluminium rear radiator
- Ignition system: 12 individual coils, 12-volt
- Exhaust emission control: 4 catalytic converters with lambda sensors and secondary air injection
- Engine block: Aluminium alloy
- Cylinder heads: Aluminium alloy
- Connecting rods: Titanium
- Valves: Titanium
- Total engine weight: 162–178 kg (357.1–392.4 lb)
- Engine mounting: Semi-structural-inclined axis shear mounting (IASM)
- Power density: 166 PS per litre
Applications
References
- ↑ Katsianis, Jordan (4 August 2020). "Gordon Murray Automotive T.50 revealed – the real McLaren F1 successor". Evo. Retrieved 10 August 2020., and a maximum rpm redline of 12,100 rpm
- ↑ "T.50 | Gordon Murray Automotive".
- ↑ "T.50".
- ↑ "Gordon Murray's T.50s Niki Lauda is a Modern F1 GTR Successor That Weighs 1,878 Pounds". 22 February 2021.
- ↑ "T.50s | Gordon Murray Automotive".