What Causes the Rich Air-Fuel Ratio in Cold Spark Ignition Engines?

In summary: At wide open throttle the ratio can fluctuate between 9:1-13:1. At idle and cruising the ratio is oscillated to ensure proper converter operation. When the engine is cold or first started up the temperature of the cylinders and the fuel is low, the computer injects more fuel then necessary to compensate. The average air fuel ratio at start up can vary between 7:1-9:1. When the engine warms up the computer oscillates the air fuel ratio rapidly between rich and lean. The average air fuel ratio at idle and cruise is 14.7:1. When the engine is at wide open throttle the computer en
  • #1
chhitiz
221
0
what is the average air to fuel ratio in spark ignition engines?
 
Engineering news on Phys.org
  • #3
It depends on the current condition.

When an engine is cold/first being started up the temperature of the cylinders and the fuel is quite low thus fuel atomization is poor. To compensate for the low temp the computer must inject more fuel than necessary due to a lower percentage of the fuel being vaporized. So at start up - depending on temp - air fuel ratios can vary between roughly 7:1-9:1. During idle and cruise after the engine has warmed up the computer oscillates the air fuel ratio very rapidly (many times per second) between rich and lean with an average of 14.7:1. The computer oscillates the air fuel ratio at idle and cruise to ensure proper catalytic converter operation. At wide open throttle the computer enriches the air fuel mixture to combat detonation and produce max torque/horsepower, this ratio can vary between 9:1-13:1 depending on the compression ratio, detonation resistance of the combustion chamber, etc.

This is describing Electronic fuel injection but the principles are very similar across other types of fuel metering systems.
 
  • #4
reese92tsi said:
It depends on the current condition.

When an engine is cold/first being started up the temperature of the cylinders and the fuel is quite low thus fuel atomization is poor. To compensate for the low temp the computer must inject more fuel than necessary due to a lower percentage of the fuel being vaporized. So at start up - depending on temp - air fuel ratios can vary between roughly 7:1-9:1. During idle and cruise after the engine has warmed up the computer oscillates the air fuel ratio very rapidly (many times per second) between rich and lean with an average of 14.7:1. The computer oscillates the air fuel ratio at idle and cruise to ensure proper catalytic converter operation. At wide open throttle the computer enriches the air fuel mixture to combat detonation and produce max torque/horsepower, this ratio can vary between 9:1-13:1 depending on the compression ratio, detonation resistance of the combustion chamber, etc.

This is describing Electronic fuel injection but the principles are very similar across other types of fuel metering systems.

I think your numbers a possibly a bit out there. simply becuase a ratio of 7:1 is getting to the point where combustion won't occur. You will certainly be getting enormous clouds of smoke from the exhaust full of raw fuel.

Typcially you get max power from an equivilance ratio of 1.1 - 1.2 . So that's approx 12.25:1 AFR. Anything below this you will start to hinder combustion on a naturally aspirated engine. On blown engines, you can drop the AFR below this, but the excess fuel simply acts as charge cooling.

For cruising you can lean the engine slightly beyond stoichiometric.


Out of curiosity, where did you get your figures for AFR from?
 
  • #5
I'm an auto enthusiast/gear head and those were rough figures that were pulled from the anal (I apologize I should have looked the figures up) area to give the OP an idea of what is required to run an engine under various conditions. You have to remember that at lower temps volatility of the fuel is lower so more fuel than necessary has to be injected just to create a burnable mixture (a lot in extreme temps). At temperatures of -10 degrees F and below 7:1 may not be entirely out of the question when you're trying to start an engine.
 
  • #6
The reason why the AFR is so rich when the engine is cold is not because the engine needs more fuel for the combustion, but because the fuel "sticks" to the manifold's walls (like water on a cold window), which means less fuel going to the combustion chamber. As the engine heats up, the "left behind" fuel evaporates and get mixed in the air flow again. That's why on older engines with carburetor, they often have a passage heated by exhaust gas under the intake manifold to accelerate the process while the engine warms up.
 
  • #7
jack action said:
The reason why the AFR is so rich when the engine is cold is not because the engine needs more fuel for the combustion, but because the fuel "sticks" to the manifold's walls (like water on a cold window), which means less fuel going to the combustion chamber. As the engine heats up, the "left behind" fuel evaporates and get mixed in the air flow again. That's why on older engines with carburetor, they often have a passage heated by exhaust gas under the intake manifold to accelerate the process while the engine warms up.

In a fuel injected engine the fuel is sprayed directly through the intake valve so the fuel will barley touch the intake manifold. The reason that the AFR is so low when the engine is cold is because much of the fuel won't be vaporized at the low temperatures and thus won't be burnt.

In a carburetored engine though, your quite right.
 

FAQ: What Causes the Rich Air-Fuel Ratio in Cold Spark Ignition Engines?

What is the ratio of air and fuel in a spark ignition (SI) engine?

The ideal ratio of air to fuel in a spark ignition engine is 14.7:1, also known as the stoichiometric ratio. This means that for every 14.7 parts of air, there is 1 part of fuel.

Why is the ratio of air and fuel important in a spark ignition engine?

The ratio of air and fuel is important because it directly affects the combustion process in the engine. If there is not enough air, the fuel will not burn completely, resulting in lower efficiency and higher emissions. If there is too much air, the fuel will not be able to ignite, causing a lean misfire.

How is the air-fuel ratio controlled in a spark ignition engine?

The air-fuel ratio is typically controlled by the engine's fuel injection system. Sensors measure the amount of air entering the engine and adjust the amount of fuel injected accordingly to maintain the desired ratio. Some older engines may use a carburetor to mix air and fuel, which is controlled by a throttle valve.

What happens if the air-fuel ratio is too rich?

If the air-fuel ratio is too rich (meaning there is too much fuel compared to air), the engine may produce excessive emissions and have reduced fuel efficiency. This can also cause damage to the catalytic converter and oxygen sensors in the exhaust system.

What happens if the air-fuel ratio is too lean?

If the air-fuel ratio is too lean (meaning there is too much air compared to fuel), the engine may experience a lean misfire, which can cause rough idling, hesitation, and poor performance. It can also lead to damage to the engine's internal components due to increased heat and pressure.

Similar threads

Replies
11
Views
20K
Replies
7
Views
2K
Replies
2
Views
823
Replies
16
Views
5K
Replies
45
Views
11K
Replies
5
Views
2K
Replies
8
Views
3K
Replies
21
Views
3K
Replies
11
Views
15K
Replies
8
Views
3K
Back
Top