NATIONAL 3

Fuels and Combustion

Fuels are chemicals which burn, giving out energy.
The gas oxygen is used up in the process.

A reaction in which oxygen is used up as energy is released is known as a combustion reaction.

Fighting fires

A fire needs a fuel, oxygen (usually from the air) and a temperature high enough to start the fire and keep it going.
The three 'ingredients' necessary for fire are shown in the 'fire triangle' on the right. If one of these 'ingredients' is taken away, from a fire, it will go out.

Removing heat from a fire

Heat can be removed from a fire by spraying water on it. The water cools the fire down and puts the fire out.
Water must not be used with oil, petrol and electrical fires.

Removing oxygen from a fire

This is normally done by smothering the fire. Options include:

  • Wrapping a fire blanket around a person whose clothes are on fire
  • Placing a damp cloth over a burning chip pan
  • Using a fire extinguisher containing carbon dioxide or foam
  • Using sand

Removing fuel from a fire

Gas fires and Bunsen burners go out when the gas supply is turned off.

Estimates of how long they will last


Fossil fuels

These are fuels made from material that was once living. There are three common fossil fuels - Coal, oil and natural gas. Peat can also be described as a fossil fuel.

These fuels will not last for ever - they are finite resources.


Origin of Fossil Fuels

Coal is made from fern-like trees that became buried in swampy land over 350 million years ago.
This material was squashed (pressure) and heated and over a period of millions of years gradually formed coal.

Crude oil and natural gas came from microscopic sea animals and plants that died and became covered by sediment.
Again pressure and temperature over millions of years changed the once living organisms into crude oil and natural gas.

These are both mined from the land or under the sea.

Pollution from Coal and Oil

  • Coal mining leaves scars on the environment and coal bings alter the shape of the landscape.
  • Oil spillage can cause serious damage to marine life.
  • Fossil fuels also damage the environment when they are burned as they produce acidic and greenhouse gases.

Burning fossil fuels

Oil fractions are mainly hydrocarbons - compounds containing only hydrogen and carbon.
When these burn in air, carbon dioxide and water are formed. This can be shown using the following experiment.

  • Carbon dioxide turns limewater milky (cloudy).
  • Water is best identified by measuring its freezing and boiling point and confirming they are the same as that of pure water, but can also be identified using cobalt chloride paper which changes from blue to pink when water is present. If the middle test tube is cooled by placing it in ice, condensation (water) would be seen forming on the inside of the tube. Water also has a pH of 7.

When we burn methane (natural gas) in a Bunsen burner it also produces carbon dioxide and water. This can be seen if we place a boiling tube into the flame for a few seconds, droplets of water are deposited on the outside of the tube. If the tube is held there too long, the tube becomes too warm for the water to remain as a liquid and the condensation disappears.

It the mouth of the test tube is held near the flame horizontally for a few seconds (to attempt to 'catch some of the gases being formed) and then lime water is added to the tube, it will turn cloudy. This proves carbon dioxide is being produced.

Pollution problems resulting from burning fossil fuels

  1. Carbon dioxide - This gas causes global warming (greenhouse effect).
  2. Carbon monoxide - This gas is made when fuels containing carbon burn in insufficient air or oxygen.
    Carbon monoxide is very poisonous and especially dangerous because it is colourless, odourless and tasteless.
  3. Sulphur dioxide - If sulphur is present in a fuel, sulphur dioxide is made when it burns.
    Sulphur dioxide, a poisonous gas, causes acid rain and can trigger asthma.
    Sulphur is often removed from fuels before they are burned so that pollution is reduced.
  4. Nitrogen oxides - Fuels need oxygen from the air to burn. In petrol engines, the spark provides the activation energy to ignite the fuel. Unfortunately the spark can also cause nitrogen and oxygen molecule to combine to make nitrogen oxides.
    These are poisonous gases which add to the acid rain problem. The same gases are formed when a lightning bolt passes through the air.

Renewable energy sources

Renewable energy sources are energy sources that will not run out and can be replaced. These can be alternative fuels or harnessing energy from natural resources.

Most of the world's energy currently comes from burning fossil fuels. This not only uses finite resources (they will run out), but also produces greenhouse gases such as carbon dioxide and acidic gases such as sulphur dioxide.

The fact that one day fossil fuels will run out and burning them produces unwanted gases, we have no choice but to consider alternative, renewable energy sources.

Wind energy

Wind energy can be harnessed by large wind turbines. The wind turns the blades of the turbines which then produces an electric current (transforming movement energy into electrical energy).
This provides a free source of electricity, but does rely on the wind and there is an ongoing debate about the locations of these farms, which some argue spoil areas of natural beauty.

Hydroelectricity

Water stored in high reservoirs can flow through tunnels and turn the blades of a turbines which then produces an electric current (transforming stored gravitational potential energy into movement energy and then into electrical energy).
This provides a free source of electricity, but does rely on the water being stored in reservoirs.

The power station at Ben Cruachan in Scotland can also pump water back into the reservoir when there is surplus electricity (this is a useful way of storing this energy).
The generators (and entire power station) at Ben Cruachan are actually inside the mountain. It is known as the 'hollow mountain'.

Due to its many moutains and resevoirs, Scotland is an ideal location for hydroelectric power stations.

Wave energy

Energy can be harnessed from waves by placing special wave energy machines into the sea. The machines float near the surface of the water and move up and down as the waves pass by.

As with many methods of generating electrical energy, movement energy is transformed into electrical energy.

Solar energy

Energy directly from the sun can be used to provide energy.
This concept is nothing new as plants have been doing this well before man ever thought about it!

The heat energy from the sun can be used directly to heat objects using a solar furnace. This equipment focuses the suns rays on a single point (in the same way a satellite dish works. Large solar furnaces can easily melt metals!

Many houses invest in solar heating panels that use the energy from the sun to heat water or other refrigerants.

Light energy from the sun can also be converted to electrical energy using a photovoltaic cell. Solar panels made from these cells can be used to generate free electricity for a typical household. The downside with these solar panels is that they do not work at night!
There are other panels, such as thermodynamic panels that can absorb sunlight energy and heat energy from the air around them (which has been warmed by the sun). These panels can still work after the sun has set!

Biogas

Methane is found in biogas which can be generated by the decomposition of waste plant material (biomass). This process also takes place inside the gut of animals.
Cows in particular produce large volumes of methane gas. Methane gas is also a greenhouse gas.

Biogas produces carbon dioxide and water when it burns.

Biodiesel

Biodiesel can be made from natural oils such as sunflower and vegetable oil. Since these are renewable sources, biodiesel is a renewable fuel. However, if vegetables and plants are used to make biodiesel, this may have serious implications for the world's food supply.

When it burns it produces carbon dioxide (and water), which can contribute to global warming.

Bioethanol

Ethanol (a common type of alcohol) is made from sugar cane by a process called fermentation. This biological process uses enzymes found in yeast.

This bioethanol can be extracted and mixed with petrol to make a fuel for cars.

As sugar cane is renewable, alcohol as a fuel is renewable. However, if sugar (or sugary crops) is used to make bioethanol, this may have serious implications for the world's food supply. Scotland used to produce sugar beet which could have been converted to bioethanol. As fossil fuels run out, this may happen again.

Alcohol burns readily and can produce an explosion when a small quantity of alcohol vapour and air are ignited with a spark - your teacher may demonstrate this.

Bioethanol produces carbon dioxide and water when it burns.

Hydrogen

Hydrogen is the most abundant element in the universe and our sun's energy comes from a nuclear reaction using hydrogen as a fuel.

On earth hydrogen is joined up to oxygen in the compound water (H2O)

Electricity can be used to break apart water into the separate elements hydrogen and oxygen. This process is called electrolysis. Hydrogen, which can be obtained from water, is a likely fuel for the future, especially if the electricity can be generated from renewable sources.

waterhydrogen + oxygen

One of the major benefits of using hydrogen as an alternative fuels is that it only produces water when it burns. This makes it a clean burning fuel which can be used in an internal combustion engine (car engine) or reacted with oxygen in a hydrogen fuel cell to provide electricity.

Hydrogen is seen as a means of storing energy (from the sun) and a means of distributing energy. However, since it is an extremely explosive gas, carefully consideration must be made as to how it is stored and used.

The test for hydrogen is that it burns with a squeaky pop.

New words and their meanings

Fuel - A chemical that can release energy.

Combustion - The reaction of a fuel with oxygen to release energy.

Fossil fuels - Coal, oil and natural gas are fuels that are made from fossilised materials and can be burned to release energy.

Finite resources - Something that will run out and will not last forever.

Renewable resources - Something that will not run out.

Greenhouse gases - A gas that causes the Earth to traps the sun's energy more than normal. This can cause the Earth to warm.

Global warming - The warming of the planet which may be caused by greenhouse gases.

Pollution - Substances which damage the environment

Fractional distillation - Separation of a mixture of substances into parts or fractions based the fact that they have different boiling points

Hydrocarbons - The name given to compounds entirely made up of the elements carbon and hydrogen.

Catalytic converter - A device fitted to cars that changes harmful exhaust gases into less harmful ones.

Wind energy - A renewable source of energy. Wind causes turbine blades to move and this movement energy is converted to electrical energy.

Hydroelectricity - A renewable source of energy. Fast flowing water causes turbine blades to move and this movement energy is converted to electrical energy.

Wave energy - A renewable source of energy. Waves cause floats to move up and down and this movement energy is converted to electrical energy.

Solar energy - A renewable source of energy from the sun. This energy can be used to heat directly or generate electrical energy.

Biomass - Organic material (plant and animal waste) that can be used to produce biofuels such as biogas, biodiesel and bioethanol.

Biogas - A renewable fuel made from decaying organic material. Methane is the main chemical in biogas.

Biodiesel - A renewable fuel made by chemically changing oils (and fats) from natural sources.

Bioethanol - A renewable fuel made by fermenting sugar using enzymes found in yeast. Bioethanol is made of the chemical called ethanol which is a type of alcohol.

Hydrogen - A renewable fuel made by breaking up water using electricity.

Electrolysis - Using electricity to break up a compound.

NATIONAL 4

Fuels.
Fuels are chemicals which have stored energy. This energy can be released when they burn in oxygen.
A reaction in which oxygen is used up as energy is released from a fuel is known as oxidation. The most common version of oxidation is burning, which is properly called combustion. Combustion is therefore an exothermic reaction.
The energy that is stored in fuels comes from bonds between atoms.
Plants are capable of making their own food (which is a fuel) by taking in carbon dioxide and water to make glucose and oxygen in a process called photosynthesis. This uses and stores energy from the sun into the food.
When animals (including us) eat plants, this energy is released during respiration - the process of obtaining energy from food. Our bodies can also store the food and keep the energy for later.
Fossil fuels (from plants) such as coal, peat, oil, natural gase and other plant based fuels such as wood and biomass have this energy trapped inside, making them useful fuels.
Fighting fires
A fire needs a fuel, oxygen (usually from the air) and a temperature high enough to start the fire and keep it going.
The three 'ingredients' necessary for fire are shown in the 'fire triangle' on the right. If one of these 'ingredients' is taken away, from a fire, it will go out.
Removing heat from a fire
Heat can be removed from a fire by spraying water on it. The water cools the fire down and puts the fire out.
Water must not be used with oil, petrol and electrical fires.
Removing oxygen from a fire

This is normally done by smothering the fire. Options include:
  • Wrapping a fire blanket around a person whose clothes are on fire
  • Placing a damp cloth over a burning chip pan
  • Using a fire extinguisher containing carbon dioxide or foam
  • Using sand

Removing fuel from a fire
Gas fires and Bunsen burners go out when the gas supply is turned off.
Estimates of how long they will last


Fossil fuels
These are fuels made from material that was once living. There are three common fossil fuels - Coal, oil and natural gas. Peat can also be described as a fossil fuel. These fuels play a major role in the world's economy.
These fuels will not last for ever - they are finite resources.
Coal is made from fern-like trees that became buried in swampy land over 350 million years ago.
This material was squashed (pressure) and heated and over a period of millions of years gradually formed coal.
Crude oil and natural gas came from microscopic sea animals and plants that died and became covered by sediment.
Again pressure and temperature over millions of years changed the once living organisms into crude oil and natural gas.
These are both mined from the land or under the sea.
Burning fossil fuels
Fossil fuels are mainly hydrocarbon compounds (compounds containing only hydrogen and carbon). They also contain other impurities.
Crude oil is a mixture of hydrocarbons which are similar to each other in chemical makeup and chemical properties, but differ in size of molecule.
When these burn in a plentiful supply of air (or oxygen), carbon dioxide and water are formed. This can be shown using the following experiment.

  • Carbon dioxide turns limewater milky (cloudy).
  • Water is best identified by measuring its freezing and boiling point and confirming they are the same as that of pure water, but can also be identified using cobalt chloride paper which changes from blue to pink when water is present. If the middle test tube is cooled by placing it in ice, condensation (water) would be seen forming on the inside of the tube. Water also has a pH of 7.
When we burn methane (natural gas) in a Bunsen burner it also produces carbon dioxide and water. This can be seen if we place a boiling tube into the flame for a few seconds, droplets of water are deposited on the outside of the tube. If the tube is held there too long, the tube becomes too warm for the water to remain as a liquid and the condensation disappears.
It the mouth of the test tube is held near the flame horizontally for a few seconds (to attempt to 'catch some of the gases being formed) and then lime water is added to the tube, it will turn cloudy. This proves carbon dioxide is being produced.
If the air-hole on a Bunsen burner is closed, it reveals the 'safety flame'. This flame isn't as hot as a blue flame and it is also visible, making it safer than a blue flame. If glassware is heated in this yellow flame, it becomes covered in soot (carbon).