Energy from Fuels (Cambridge (CIE) IGCSE Physics)

Revision Note

Leander Oates

Written by: Leander Oates

Reviewed by: Caroline Carroll

Did this video help you?

Fossil fuels

  • Fossil fuels are:

    • Coal

    • Natural gas (mostly methane)

    • Crude oil which is refined into petrol, diesel, and other fuels

 Fossil fuels

1-8-2-fossil-fuels-cie-igcse-23-rn

Fossil fuels: coal, oil and natural gas

  • Fossil fuels are formed from the remains of plants and animals 

  • Chemical energy stored in fossil fuels originally came from sunlight

    • Energy from the sun was transferred to the chemical energy store of plants by photosynthesis (plants use energy from sunlight to make food)

    • Animals ate the plants and the energy was transferred to their chemical store

Advantages of fossil fuels

  • Fossil fuel power stations are extremely reliable and the infrastructure is well established in most countries

  • Fossil fuel power stations are extremely responsive (they can be turned on and off easily), which means they can meet the changing demands of a nation

  • Fossil fuels are relatively safe to store and use

Disadvantages of fossil fuels

  • It takes millions of years for fossil fuels to form

    • This is why they are considered to be a non-renewable energy resource

    • The increasing demand for a decreasing supply causes prices to increase

    • Fossil fuels are predicted to completely run out within the next 200 years 

  • Burning fossil fuels pollutes the atmosphere with harmful gases such as:

    • Carbon dioxide which contributes to the greenhouse effect

    • Sulphur dioxide which produces acid rain

    • Both carbon and sulphur can be captured upon burning, preventing it from being released into the atmosphere but this is expensive to do

  • Extraction of fossil fuels causes damage to the environment

  • Fossil fuel power stations are expensive to build and decommission (close down)

  • The price of fossil fuels is volatile, which means the price of the electricity produced can fluctuate based on global factors of supply and demand

 

Uses of fossil fuels

  • Fossil fuels are used for:

    • Transport

    • Generating electricity

    • Heating

Transport

  • The majority of vehicles in the world are powered by petroleum products such as petrol, diesel and kerosene

    • These resources all originate from crude oil, which is a fossil fuel

  • A growing number of vehicles are now being powered by electricity

    • The advantage of this is that while the vehicle is being driven, it produces zero carbon emissions

    • The disadvantage is that when the vehicle is being charged, it is connected to the National Grid, which currently uses a combination of renewable and non-renewable energy sources

Electricity generation

  • Fossil fuels, such as gas and coal, are used to produce energy on-demand when energy is needed

    • The fossil fuel is burned (combusted) and used to heat water to produce steam

    • The steam turns a turbine

    • The turbine turns a generator, which generates electricity

    • The current produced is transmitted via the National Grid

    • The steam is condensed into water to be used again


Electricity generation in a coal-fired power station

8-1-5-fossil-fuel-power-plant_sl-physics-rn


Fossil fuels are burned to heat water to produce steam. The steam turns the turbine, which turns the generator, which produces electricity.

 

  • Electricity plays a bigger role in people's lives than ever before

    • With almost 8 billion people in the world, this means the demand for electricity is extremely high

    • To keep up with this demand, a combination of all the energy resources available is needed

Global energy consumption

World Energy Consumption 2019, downloadable IGCSE & GCSE Physics revision notes

Currently, more than three quarters of the global electricity production uses fossil fuels; this is increasing the levels of atmospheric carbon dioxide, which leads to global warming

 

Heating

  • The majority of heating systems run on fossil fuels

    • Gas central heating systems are the most common, with a gas boiler that heats water through a system of pipes and radiators throughout the building

    • Boilers can also be powered by oil or biofuels

    • Open fireplaces burn wood or coal

  • Electric heaters run on electricity

  • Bottled gas can also be used in portable heaters

    • Bottled gas is either propane or butane which are also produced from fossil fuels

Biofuels

  • Biofuels are made from plant matter

    • Energy from sunlight is transferred to the chemical store of plants

  • Ethanol or methane can be produced and used in place of fossil fuels

    • However, they have only half the energy density of fossil fuels

Advantages of biofuel

  • Biofuel is a renewable resource

  • Some vehicles can be powered by biofuel rather than using fossil fuels

  • Biofuel is considered to be carbon neutral

  • No sulphur dioxide is produced 

  • Biofuel is added to petrol and diesel products in many country to reduce the volume of pollutants released in combustion 

Disadvantages of biofuel

  • Crops of biofuel producing plants must be grown, which takes time

    • Growing the crops takes a lot of land, and takes resources needed for food production

  • Burning biofuels releases carbon dioxide into the atmosphere

    • Biofuels are considered carbon neutral because plants take in carbon dioxide when they photosynthesise, however, this view is controversial

    • If the land had been used to grow crops for food, the same amount of carbon would have been taken out of the atmosphere, and much less carbon would have been returned

  • Biofuels have only half the energy density of fossil fuels, which means twice as much fuel needs to be used to release the same amount of energy

  • Not many vehicles can run on biofuel alone

Cycle of biofuel production and use

1-8-2-biofuels-cie-igcse-23-rn

Plants take in carbon dioxide during photosynthesis, but carbon dioxide is released back into the atmosphere when biofuels are burned

Nuclear fuel

  • Energy stored in the nucleus of atoms can be released when the nucleus is broken in two

    • This is known as nuclear fission

 Nuclear fission

1-8-2-fission-cie-igcse-23-rn

Nuclear Fission: when a large nucleus is broken into two smaller nuclei, energy is released

  • Nuclear power stations use fission reactions to heat water to produce steam, to turn turbines that turn generators which generate electricity

Advantages of nuclear power

  • No pollution released into atmosphere

  • Nuclear power stations are extremely reliable and well established in some countries

  • Nuclear power stations are responsive as the output is easily controlled

  • Nuclear power stations produce massive amounts of power

    • Twice the power output of a fossil fuel power station

  • Nuclear fuel has a high energy density

    • A small amount of fuel releases massive amounts of energy

Disadvantages of nuclear power

  • Nuclear power is a non-renewable resource

    • Uranium ore mined from rocks so there is a finite supply

  • Nuclear fuels produce radioactive waste

    • Radioactive waste is packaged and buried underground to be stored for thousands of years

    • Burial sites must remain undisturbed and uninhabited

  • Nuclear power stations are extremely expensive to build and to decommission (close down)

  • Nuclear power stations are expensive to run and maintain because rigorous safety protocols must be in place

  • Nuclear power stations are potentially dangerous in the event of an accident

Examiner Tips and Tricks

In your IGCSE exam, you may be required to discuss the advantages and disadvantages of various energy resources. You may also need to apply your understanding of energy resources to unfamiliar scenarios, for example, by suggesting which type of energy resource would be best for a particular community. Make sure you can justify your choices.

Last updated:

You've read 0 of your 5 free revision notes this week

Sign up now. It’s free!

Join the 100,000+ Students that ❤️ Save My Exams

the (exam) results speak for themselves:

Did this page help you?

Leander Oates

Author: Leander Oates

Expertise: Physics

Leander graduated with First-class honours in Science and Education from Sheffield Hallam University. She won the prestigious Lord Robert Winston Solomon Lipson Prize in recognition of her dedication to science and teaching excellence. After teaching and tutoring both science and maths students, Leander now brings this passion for helping young people reach their potential to her work at SME.

Caroline Carroll

Author: Caroline Carroll

Expertise: Physics Subject Lead

Caroline graduated from the University of Nottingham with a degree in Chemistry and Molecular Physics. She spent several years working as an Industrial Chemist in the automotive industry before retraining to teach. Caroline has over 12 years of experience teaching GCSE and A-level chemistry and physics. She is passionate about creating high-quality resources to help students achieve their full potential.