subject: Engine Braking - China Marble Texture - Fine-brick Texture Manufacturer [print this page] Petrol (gasoline) engines Petrol (gasoline) engines
The term engine braking usually refers to the braking effect caused by throttle position induced vacuum in petrol (gasoline) engines. While some of the braking force is due to friction in the drive train, this is negligible compared to the effect from vacuum.
When the throttle is lifted less air is allowed to pass through the intake manifold, and the engine works against this vacuum. It is the deceleration of the engine against this vacuum which provides the braking effect.
Diesel engines
Diesel engines do not maintain a throttle vacuum as they do not have an intake throttle. The fuel itself is the throttle, and thus diesel engines are not subject to the same engine braking effects as gasoline engines are.
However, there are several other mechanisms which diesel engines use that could also technically fall under the term engine braking:
An engine retarder/engine brake(aka jake brake)
A compression release brake which is used mainly in large diesel trucks. It works by opening the exhaust valves at the top of the compression stroke, releasing the compressed air in pop then immediately closing the valves to create an extreme vacuum in the cylinder and providing immense amounts of braking force. A 565hp (421kW) diesel engine can produce up to 600hp (450kW) of braking power.[citation needed]
An exhaust brake
This works by causing a restriction in the exhaust much like the intake throttle causes in a gasoline engine. Nearly all of these brakes are butterfly valves mounted downstream of the turbocharger.
A mechanism related to the exhaust brake is back-pressure from a turbocharger. In turbo diesels with variable-vane turbos, the vanes will close when the accelerator is released which creates a back pressure breaking effect similar to an exhaust brake.
Two-stroke engines
Engine braking in a two-stroke engine can be extremely harmful to the engine, because cylinder and piston lubricant is delivered to each cylinder mixed with fuel. Consequently, during engine braking, the engine starves not only of fuel but also lubricant, while parts reciprocate rapidly. Four-stroke engines typically have lubrication by an oil pump, independent of the throttle and fuel system.
Applications
Engine braking passively reduces wear on brakes and helps a driver maintain control of the vehicle. Active use of engine braking (shifting into a lower gear) is advantageous when it is necessary to control speed while driving down very steep and long slopes. It should be applied before regular disk or drum brakes have been used, leaving the brakes available to make emergency stops. The desired speed is maintained by using engine braking to counteract the gravitational acceleration.
Improper engine braking technique can cause the wheels to skid (also called shift-locking), especially on slippery surfaces such as ice or snow, as a result of too much deceleration. As in a skid caused by over-braking, the vehicle will not regain traction until the wheels are allowed to turn more quickly; the driver must reduce engine braking (shifting back up) to regain traction.
Engine braking is intrinsically available in non-hybrid vehicles with gasoline-powered internal combustion engines, regardless of transmission type. In almost all cases, it is active when the foot is lifted off the accelerator, the transmission is not in neutral, the clutch is engaged and a freewheel is not engaged.
In hybrid electric vehicles like the Toyota Prius, engine braking is simulated by the computer software to match the feel of a traditional automatic transmission. For long downhill runs, the "B" mode acts like a lower gear, using higher RPMs in the internal combustion engine to waste energy, preventing the battery from becoming overcharged.
See also
Air brake
Exhaust brake
Jake brake
Retarder
References
Categories: Vehicle braking technologiesHidden categories: Articles lacking reliable references from June 2008 | Wikipedia articles needing clarification from August 2009 | All articles with unsourced statements | Articles with unsourced statements from January 2010
