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The Aluminator 5.2 XS is another variant of the Coyote engine utilizing the 5.2 L cylinder block from the GT350. The Aluminator is differentiated from the Voodoo engine by a Cobra Jet intake manifold and throttle body and a cross-plane crankshaft. [47] The engine has a claimed output of 580 hp (433 kW) and 445 lb⋅ft (603 N⋅m).
Changing the engine to a V6 often requires changing the bellhousing (Mitsubishi) but the Mazda trans had an integral bell. 2.6, 2.8, 2.9, and 2.9 Cosworth. Most of these were RWD car engines. Some had the same Mitsubishi manual transmission as the 2.0/2.3 but had different bellhousings. The 2.3, 2.8, and 2.9 also made it into the Ranger, and ...
For the North American-spec Transit, * the 3.2 L Duratorq is modified to meet American and Canadian emissions standards and is branded as a Power Stroke engine. The 3.2 Power Stroke is rated 188 PS (138 kW; 185 hp) and 470 N⋅m (350 lb⋅ft).[8]
SOHC design (for a 1973 Triumph Dolomite Sprint) . The oldest configuration of overhead camshaft engine is the single overhead camshaft (SOHC) design. [1] A SOHC engine has one camshaft per bank of cylinders, therefore a straight engine has a total of one camshaft and a V engine or flat engine has a total of two camshafts (one for each cylinder bank).
For twin-cam or DOHC engines, VCT was used on either the intake or exhaust camshaft. (Engines that have VCT on both camshafts are now designated as Ti-VCT.↓) The use of variable camshaft timing on the exhaust camshaft is for improved emissions, and vehicles with VCT on the exhaust camshaft do not require exhaust gas recirculation (EGR) as retarding the exhaust cam timing achieves the same ...
The LQ1 (also called the Twin Dual Cam or TDC) was a 3.4 L (3,350 cc) DOHC V6 engine ("X-code") based on the aluminum-headed second generation of GM's 60° engine line, sharing a similar block with its pushrod cousins, the 3.1 L LH0 V6 and the then recently retired 2.8 L (2,837 cc) LB6 V6.
It had the same 0.921 in (23.4 mm)-diameter lifters of the first-generation Oldsmobile engines, rather than the standard 0.842 in (21.4 mm), which let engineers increase the camshaft's ramp speed for more power, 385 hp (287 kW), without sacrificing idle or reliability.
This task is traditionally handled by a crankshaft in conventional engines. The cam is a rotating or sliding component. It is part of a mechanical linkage. The cam imparts a desired motion to a follower by direct contact. In the context of a cam engine, the cam is typically designed as a rotating disk or cylinder. It has a specially shaped profile.