Fuels can be separated into two categories:
When fuels burn, energy transfers to the surroundings.
Combustion is a more scientific word for burning.
The two types of combustion are complete combustion and incomplete combustion.
In a complete combustion reaction, a fuel reacts with oxygen to produce carbon dioxide and water.
Methane + Oxygen ⮕ Carbon dioxide + Water
Or more specifically
CH4 + 2O2 ⮕ CO2 + 2H2O
We use many different fuels in our every day life, such as our daily commute, when we use vehicles. To move, vehicles burn fuels such as petrol and diesel, which contain hydrocarbons (molecules that are made up of hydrogen and carbon). The product formed when hydrocarbons burn are carbon dioxide and water.
Sulphur dioxide can be produced during combustion, when fuels contain sulphur, The equation for this reaction is:
Sulphur + Oxygen ⮕ Sulphur dioxide
Nitrogen oxides can also be produced in a hot car engine. The equation for this reaction is.
Nitrogen + Oxygen ⮕ Nitrogen oxide
Incomplete combustion occurs when there is not enough oxygen for complete combustion to take place, the fuel does not fully burn. For example:
Hydrogen + Oxygen ⮕ Carbon monoxide + Water + Carbon
Other products are also formed such as carbon monoxide and carbon particles (smoke and soot).
The problem with producing carbon monoxide is that…
The problem with producing carbon is that…
An alternative fuel that we can burn is hydrogen, which is a much cleaner alternative. As you can see in the chemical equation below, when hydrogen reacts with oxygen in a combustion reaction, the only product is water.
Hydrogen + Oxygen ⮕ Water
H2 + O2 ⮕ 2H2O
In this case, there is no release of carbon dioxide, which contributes to global warming or any other harmful gases that lead to environmental problems.
Therefore, in the future, hydrogen fuel may be used more compared to hydrocarbons, for combustion.