Ethanol as a Fuel (Oxford AQA IGCSE Chemistry)
Revision Note
Written by: Alexandra Brennan
Reviewed by: Stewart Hird
The Production of Ethanol
Ethanol is an alcohol with many important applications such as:
As a fuel (for vehicles in some countries)
As a solvent
In alcoholic drinks such as wine and beer
It can be produced by:
The reaction of ethene with steam
Fermentation
Ethene & Steam
The reaction of ethene and steam to produce ethanol is known as hydration
It uses the following conditions:
Temperature of around 300ºC
Pressure of 60 – 70 atm
Concentrated phosphoric acid catalyst
When the reaction is complete, the reaction chamber holds unreacted ethene, ethanol and water
The contents are transferred to a condenser where ethene is separated easily as it has a much lower boiling point than ethanol and water.
The ethanol and water are separated afterwards by fractional distillation
This method of making ethanol is very efficient as it is a continuous process
However, it uses ethene derived from crude oil which is a non-renewable resource
The reaction between ethene and steam
A water molecule adds across the C=C in the hydration of ethene to produce ethanol
Fermentation
Ethanol can be produced by fermentation whereby sugar is dissolved in water and yeast is added
The mixture is then fermented between 20 and 35°C with the absence of oxygen for a few days
Yeast acts as the catalyst in this reaction
The yeast respires anaerobically using the glucose to form ethanol and carbon dioxide:
C6H12O6 → 2CO2 + 2C2H5OH
If the temperature is too low the reaction rate will be too slow and if it is too high the enzymes will become denatured
The yeast is killed off once the concentration of alcohol reaches around 15%, hence the reaction vessel is emptied and the process is started again
This is the reason that ethanol production by fermentation is a batch process
At the end, there is a mixture of ethanol and water which is separated by fractional distillation
Unlike ethene, sugar is a renewable resource
Comparing the methods of making ethanol
| Hydration | Fermentation |
---|---|---|
Raw materials | Ethene and steam Non-renewable | Sugar Renewable |
Type of process | Continuous | Batch |
Rate of reaction | High | Low |
Conditions needed | Phosphoric acid catalyst 300oC 60-70 atm | Yeast No oxygen 20-35 oC |
Purity of Product | High | Low |
Energy requirement | High | Low |
Biofuels
Biofuels are fuels produced from plant materials
Examples include:
Biodiesel
Ethanol
They can be used as alternatives to hydrocarbon fuels
Biofuels
Advantages of Biofuels
Biofuel is a renewable resource
Biofuel is considered to be carbon neutral
This means there is no overall net gain or loss of carbon dioxide in the atmosphere
This helps reduce our carbon footprint (the total amount of greenhouse gases released)
No sulphur dioxide is produced
Therefore, biofuels do not contribute to acid rain
Disadvantages of Biofuels
Growing the crops takes a lot of land, which could be used for food production
Crops of biofuel producing plants must be grown which takes time
Burning biofuels releases carbon dioxide into the atmosphere
Carbon dioxide is a greenhouse gas that contributes to climate change
Ethanol as Biofuel
The ethanol used as a biofuel is produced from a dilute solution of ethanol
This dilute solution of ethanol is produced by fermentation of plant materials
Fermentation is carried out between 20 and 35 oC
Examiner Tips and Tricks
You only need to know how the biofuel ethanol is produced, not biodiesel.
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