Atmospheric Pollutants (GCSE Chemistry)
Atmospheric Pollutants
Air Pollutants
Fuel Combustion
- Fuel combustion produces pollutants. Alongside contributing to global climate change, fuel combustion produces pollutants. The pollutants vary depending on the type of fuel that is combusted.
- Many fuels contain carbon. Carbon is found in many fuels, as is hydrogen. Some fuels also contain sulphur. These all contribute to the pollutants produced when fuels are combusted.
Release of Atmospheric Pollutants
- Carbon dioxide and water vapour are produced from burning fuels. When fuels are burnt, carbon dioxide and water vapour are pollutants that are formed from complete combustion.
For example: CH4 + 2O2 → CO2 + 2H2O
- Carbon monoxide can be produced from burning fuels. Carbon monoxide can also be formed from incomplete combustion of fossil fuels.
- Sulphur dioxide can be formed from burning fuels. As well as carbon products, sulphur dioxide can be formed when fuels are combusted. Small amount of sulphur is present in coal. Sulphur dioxide is formed when coal is burnt.
- Nitrogen oxides can be formed from burning fuels. Nitrogen does not react with oxygen at room temperature. However, in a car or aeroplane engine, temperatures reach well over 1000°C. This exceeds the activation energy of the reaction and nitrogen burns in the oxygen at these high temperatures, to make nitrogen oxides.
Products of Fuel Combustion
- Oxygen allows complete combustion to occur. When oxygen is present in a reaction, complete combustion can occur. This means that all the reactants will be completely combusted into carbon dioxide and water.
- In reduced oxygen, incomplete combustion occurs. When there is insufficient oxygen in a reaction, incomplete combustion will occur. This means that the reactants will not be completely combusted, producing carbon monoxide, water and some solid carbon particulates and unburnt hydrocarbons.
- Incomplete combustion products are harmful. The products of incomplete combustion can be harmful. We will be discussing some of their effects in the next section.
- Sometimes sulphur dioxide is formed. Some fossil fuels contain sulphur impurities, so when burned can be oxidised to form sulphur dioxide.
The Effects of Toxic Pollutants
Carbon Monoxide
- Carbon monoxide is a product of incomplete combustion. Carbon monoxide is a toxic gas product of incomplete combustion. Its chemical formula is CO.
- Carbon monoxide is colourless. Carbon monoxide is extremely difficult to detect as it is a colourless gas. It is also odourless.
- Carbon monoxide is extremely harmful. Carbon monoxide can reduce the amount of oxygen that the body receives. A lack of oxygen means that the body can go into a coma, or even die.
Nitrogen Oxides
- Nitrogen and oxygen combine to form nitrogen monoxide. This is often seen when fuels are burned in vehicle engines. This usually occurs at high temperatures.
- Nitrogen monoxide reacts with oxygen to form nitrogen dioxide. As vehicle engines release nitrogen monoxide, it is combined with oxygen from the air forming nitrogen dioxide.
- Catalytic converters remove nitrogen oxides from car exhausts. Catalytic converters convert nitrogen oxides into nitrogen and oxygen. They also convert carbon monoxide into carbon dioxide. This reduces the release of atmospheric pollutants.
Acid Rain
- Sulphur and nitrogen can combine with rainwater. Sulphur dioxide and nitrogen oxides can combine with clouds and water. As they are gases, they can easily mix with rainwater.
- Acid rain is formed. When sulphur dioxide combines with water, sulphuric acid is formed. When nitrogen oxides combine with water, nitric acid is formed. Both of these acids are dilute, due to mixing with rainwater to form acid rain.
- Acid rain causes significant damage. Despite being dilute, acid rain can cause damage in the form of eroding stone buildings by reacting with limestone. It can also cause fish in rivers and lakes to die, as it is very acidic.
Particulates
- Particulates are formed during incomplete combustion. As we saw earlier, particulates can be formed during incomplete combustion. The particulates are solid carbon, or soot.
- Particulates can affect the atmosphere. When particulates are released during combustion, they can go into the atmosphere. Here, they can contribute to global dimming, as they prevent light from reaching Earth. This reduces photosynthesis.
- Particulates can affect the body. The lungs in the human body can be affected by particulates. The particulates get trapped in the lungs and lead to respiratory problems.
Renewable Fuels
Radioactive Isotopes
To reduce the production of atmospheric pollutants, we can use radioactive isotopes as fuels.
- Uranium-235 undergoes decay. A large nucleus of uranium-235 undergoes a decay process, known as nuclear fission, producing two smaller nuclei.
- The process releases thermal energy. The heat produced is used to heat large masses of water into steam, which can be used to turn turbines and therefore generate electricity.
- Atmospheric pollutants are not produced. Pollutants such as carbon dioxide, sulphur and nitrogen oxides are not produced. This means there is less of an impact on global warming, which is better for the environment.
- Using nuclear energy is expensive. Using and maintaining nuclear power plants is a very expensive process. Large power plants also risk the exposure of dangerous radioactive materials.
Atmospheric pollutants are substances that are released into the atmosphere and have a negative impact on the environment and human health. These substances can come from a variety of sources, including industrial processes, transportation, and agriculture.
Examples of atmospheric pollutants include sulfur dioxide, nitrogen oxides, carbon monoxide, volatile organic compounds, particulate matter, and greenhouse gases such as carbon dioxide and methane.
Atmospheric pollutants can have a range of negative effects on the environment, including acid rain, ozone depletion, and climate change. These pollutants can also harm plants and wildlife, and contribute to air pollution and poor air quality.
Atmospheric pollutants can have a significant impact on human health, causing respiratory problems, heart disease, and other health issues. Exposure to high levels of air pollution has been linked to increased risk of premature death and serious illnesses such as lung cancer and stroke.
There are several measures that can be taken to reduce atmospheric pollutants, including reducing emissions from transportation and industry, increasing the use of renewable energy sources, and promoting sustainable agriculture practices. Governments and organizations can also implement regulations and policies to limit the release of atmospheric pollutants and encourage the use of cleaner technologies.
Individuals also play an important role in reducing atmospheric pollutants by making simple changes to their daily habits. This can include reducing energy consumption, using public transportation, and choosing products and services that are produced in an environmentally friendly manner.
Atmospheric pollution is related to other key concepts in GCSE Chemistry, such as chemical reactions, the behavior of gases, and the properties of the atmosphere. Understanding these concepts is essential for understanding the processes that contribute to atmospheric pollution and the measures that can be taken to reduce it.
It is important to study atmospheric pollutants in GCSE Chemistry because they have a significant impact on the environment and human health. Understanding the sources, effects, and measures for reducing atmospheric pollutants is essential for creating a sustainable and healthy future for all.
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