Back-fire


A backfire is combustion or an explosion produced by a running internal combustion engine that occurs in the exhaust system rather than inside the combustion chamber. Unburnt fuel that is ignited in the exhaust system can produce loud sounds even if flames are not present at the tailpipe. This is called an afterburn or backfire since a backfire occurs in the exhaust system. A visible flame may momentarily shoot out of the exhaust pipe under some conditions. Either condition may cause a loud popping noise and usually indicates an improperly tuned engine.
A common cause of backfire is from running rich, or faulty ignition possibly a fouled spark plug, coil, or plug wire. A "pop-back" of an internal combustion engine can occur when the valves are not shutting correctly.
The term derives from parallel experiences with early unreliable firearms or ammunition, in which the explosive force was directed out at the breech instead of the muzzle. From this came the use of the word "backfire" as a verb to indicate something that produces an unintended, unexpected, and undesired result.

Explanation

Backfiring in internal combustion engines occurs outside of the combustion chamber, and may be the result of an improper air to fuel ratio or poor ignition. The burnt fuel then enters the intake system, causing the air fuel mixture in the intake system to combust.
Pop-backs may also occur before the combustion chamber. One possible cause of this is timing. If the timing is too early, the spark plug fires before the intake valves close, causing the combustion to propagate into the intake manifold, further igniting the air-fuel mixture there; the resulting explosion then travels out of the carburetor and air filter. On many small marine engines, a screen is placed over the intake of the carburetor as a flame arrestor, to prevent these flames from escaping the intake and potentially igniting fuel or fuel vapors in the enclosed sump or bilge of the boat, causing a fire or explosion. Alternatively, the ignition timing may be late, in which case the combustion is not completed by the time the exhaust valves open, allowing the combustion to propagate into the exhaust system.
Additionally, improperly adjusted carburetors that create a lean condition during acceleration can cause the air–fuel mixture to burn so slowly that combustion is still taking place during the exhaust stroke, and even when the intake valve opens. The flame front can then travel up the intake and cause a popback. In this situation it is conceivable that there is a popback occurring in the intake manifold and exhaust manifold simultaneously.
In both cases, the result is a sharp pop, which is colloquially referred to as a "backfire". However, for troubleshooting, engine mechanics more strictly define an ignition of fuel within the engine exhaust system as a "backfire", while a "popback" is this same process taking place in the induction system.

Causes

Exhaust system backfires occur in engines that have an emission system malfunction, like an air injection system diverter valve problem, an exhaust leak, or when the catalytic converter has been removed. In some high-performance vehicles, when a driver shifts up and lets off the accelerator, the engine has a moment of running rich. This causes an incomplete burn which causes the fumes to explode in the exhaust system along with an audible pop or bang sound. This is a result of working equipment, and is unlikely to cause damage.
A fuel-injected engine may backfire if an intake leak is present, or a fuel injection component such as an air-flow sensor is defective.
Common causes of backfires are:
With older engine designs, backfiring can be common or unavoidable. Backfire is rare in modern vehicles with fuel-injection and computer-controlled fuel mixtures.
Cars with sports exhausts are much more likely to backfire. In some circumstances the backfire is seen as an additional perk of the car. The TVR Cerbera is an example of a car with factory-fitted sports exhausts which produce frequent backfires on engine braking.
In high-powered supercharged aircraft piston engines such as the Rolls-Royce Merlin and Griffon, backfiring into the inlet manifold is prevented with flame traps inside the manifold, the traps preventing the flame propagating into the compressed air/fuel mixture within the manifold.