Incomplete Combustion (DP IB Chemistry)
Revision Note
Incomplete Combustion
Complete combustion occurs with a plentiful supply of air / oxygen and produces carbon dioxide and water
In a Bunsen burner, complete combustion is characterised by a blue, non-luminous flame
In comparison, incomplete combustion:
Has a limited supply of air / oxygen
Still produces water
This is the combustion / oxidation product of the hydrogen present in organic compounds
Produces carbon monoxide or carbon
These are the combustion / oxidation products of the carbon present in organic compounds as it is not fully oxidised
Incomplete combustion often takes place inside a car engine and inside faulty boilers due to the limited amount of oxygen present
In a Bunsen burner, incomplete combustion is characterised by a yellow flame
Carbon monoxide as a product of incomplete combustion
With a reduced supply of oxygen, carbon monoxide will be produced
The word equation for incomplete combustion to form carbon monoxide is:
Fuel + oxygen → carbon monoxide + water
For example, the word and chemical equations for the incomplete combustion of propane to form carbon monoxide are:
Incomplete combustion of propane word equation:
Propane + oxygen → carbon monoxide + water
Incomplete combustion of propane chemical equation:
C3H8 (l) + 3½O2 (g) → 3CO (g) + 4H2O (l)
Carbon monoxide is extremely dangerous as it is colourless and odourless (it doesn’t smell) and will not be noticed
Carbon monoxide is also a toxic and poisonous gas that binds irreversibly to haemoglobin in the blood
This limits the haemoglobin's capacity to bind and transport oxygen
As no oxygen can be transported around the body, victims will feel dizzy, lose consciousness and if not removed from the carbon monoxide, they can die
Carbon as a product of incomplete combustion
With a very reduced supply of oxygen, carbon will be produced in the form of soot
A sooty, yellow flame is a clear indication that incomplete combustion is taking place
Many hydrocarbons derived from benzene burn with a sooty, yellow flame due to their high percentage of carbon content
The production of soot can be used to distinguish between different organic compounds
Compounds with a higher percentage of carbon content tend to undergo incomplete combustion and produce more soot
Worked Example
Incomplete combustion as a qualitative measure
Calculate the percentage carbon composition by mass in samples of cyclohexane (C6H12), nitrobenzene (C6H5NO2) and naphthalene (C10H8).
cyclohexane
(C6H12)nitrobenzene
(C6H5NO2)naphthalene
(C10H8)M / g mol-1
84
123
128
% of carbon
Using your answer to part (1), explain how the three samples could be distinguished by observing their combustion.
Answer 1:
The percentage carbon composition by mass is calculated by:
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| cyclohexane | nitrobenzene | naphthalene |
M / g mol-1 | 84 | 123 | 128 |
% of carbon | 86 | 59 | 94 |
Answer 2:
Napthalene will produce the most sooty flame
Nitrobenzene will produce the least sooty flame
The word equation for incomplete combustion to form carbon is:
fuel + oxygen → carbon + water
For example, the word and chemical equations for the incomplete combustion of propane to form carbon are:
Incomplete combustion of propane word equation:
propane + oxygen → carbon + water
Incomplete combustion of propane chemical equation:
C3H8 (l) + 2O2 (g) → 3C (s) + 4H2O (l)
Examiner Tips and Tricks
The incomplete combustion of organic compounds never produces hydrogen
Hydrogen is always preferentially oxidised by any available oxygen, rather than carbon
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