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First teaching 2023

First exams 2025

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The Amount of Carbon Dioxide Produced When Fuels Burn (SL IB Chemistry)

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The Amount of Carbon Dioxide Produced When Fuels Burn

Fossil fuels

What is a fossil fuel?

  • A fossil fuel is a material such as coal, oil and natural gas
  • Fossil fuels contain hydrocarbons
  • They were formed naturally in the Earth's crust from the remains of dead plants and animals millions of years ago
  • They are described as non-renewable or finite because they cannot be replaced in a short period of time

Advantages of fossil fuels

Coal

  • Relatively cheap
  • Abundant 
  • Long lifespan (compared to other fossil fuels)
  • Can be converted into liquid fuels and gases
  • Relatively safe
  • Products from the combustion of coal have other uses, e.g. ash can be used to make roads

Oil

  • Easy to store and transport in pipelines and tankers
  • Impurities can be easily removed
  • Releases a lot of energy per kg
    • Known as high energy / enthalpy density
  • Easily processed
    • Fractional distillation and cracking are used to produce other useful chemicals, e.g. shorter-chain alkanes and alkenes 

Natural gas

  • Cheapest of the fossil fuels
  • Easy to store and transport in pipelines and pressurised containers
  • Large amounts of energy per unit mass
    • Known as high specific energy
  • Relatively clean
    • Complete combustion of natural gas happens with a blue flame producing minimal to no harmful compounds
    • Does not contribute to acid rain

Disadvantages of fossil fuels

  • All fossil fuels have limited lifespans / supplies, i.e are finite 

Coal

  • Combustion produces large amounts of pollution
    • Carbon dioxide
    • Sulfur dioxide 
    • Particulates 
  • Associated with:
    • Global warming
    • Acid rain
    • Global dimming / visual pollution
  • Difficult to transport 
  • Issues around mining:
    • Destruction of habitats
    • Noise pollution
    • Health of miners
    • Safety issues 
  • Potentially radioactive

Oil

  • Combustion produces large amounts of pollution, including:
    • Carbon dioxide 
    • Sulfur dioxide 
    • Carbon monoxide 
  • Associated with:
    • Global warming
    • Acid rain
    • Global dimming / visual pollution
    • Photochemical smog
  • Uneven worldwide distribution 
  • Oil spills affecting habitats
  • Safety issues around drilling

Natural gas

  • Combustion produces large amounts of pollution
    • Carbon dioxide 
  • Associated with:
    • Global warming
  • Expensive and time-intensive to produce
  • Expensive to store
  • Safety issues around storage in pressurised containers

Burning fuels

  • Many different fuels are used in everyday life
    • The choice of fuel used can depend on:
      • Availability of the fuel
      • Cost
      • Intended use
      • Energy requirements 
  • All fuels can undergo combustion to release the chemical energy stored within their bonds 
    • Specific energy is a measure of the energy stored in a substance 

The specific energy of different common fuels

Graph showing the specific energy content of common fuels

Different fuels release different amounts of energy when combusted

  • It is the hydrocarbon contained within the fossil fuel (and other fuels) that undergoes combustion
  • Remember: Complete combustion of hydrocarbons results in the production of carbon dioxide and water, while incomplete combustion results in the production of carbon monoxide / carbon and water
    • Both types of combustion are exothermic, so they release energy
  •  As the length of the hydrocarbon chain increases
    • There is an increased carbon content resulting in the production of more carbon dioxide and carbon monoxide / carbon
    • There are stronger London dispersion forces, which makes the hydrocarbon less volatile
    • The hydrocarbon releases less energy per unit mass of fuel

Graph showing the mass of carbon dioxide and amount of energy released during the combustion of the first eight straight-chain alkanes  

Graph showing the amount of carbon dioxide and energy released during the combustion of straight chain alkanes

As the length of the hydrocarbon chain increases, more carbon dioxide and less energy is released per gram of hydrocarbon burnt

  • As the length of the hydrocarbon increases, it is also more likely that incomplete combustion will take place

Examiner Tip

  • Students often miss that methane releases the most energy per unit mass of fuel

Worked example

Calculate the mass of carbon dioxide produced when 1.00 g of butane undergoes complete combustion.

 

Answer:

  • Start with the balanced chemical equation:
    • C4H10 (g) + 6½O2 (g) → 4CO2 (g) + 5H2O (l)
  • Calculate the moles of butane, using moles = begin mathsize 14px style mass over M subscript r end style:
    • (C4H10 (g)) = fraction numerator 1.00 over denominator open parentheses open parentheses 4 cross times 12.01 close parentheses plus open parentheses 10 cross times 1.01 close parentheses close parentheses end fraction
    • (C4H10 (g)) = 0.0172 moles
  • Use the stoichiometry of the balanced chemical equation to deduce the moles of carbon dioxide produced:
    • C4H104 CO2 
    • (CO2 (g)) = 4 x (C4H10 (g))
    • (CO2 (g)) = 4 x 0.0172
    • (CO2 (g)) = 0.0688 moles
  • Calculate the mass of carbon dioxide produced, using mass = moles x Mr 
    • Mass of CO2 = 0.0688 x (12.01 + (2 x 16.00)
    • Mass of CO2 produced when 1.00 g of butane undergoes complete combustion = 3.03 g

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Richard

Author: Richard

Expertise: Chemistry

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.