TY - JOUR

T1 - Taking the fossil out of fuels

AU - Fish, Steven Anthony

PY - 2009

Y1 - 2009

N2 - Over the last ten years, there has been a step change in how both the public and government view the environment. Where once the dollar was king, we now see a shift in position to where commercial activities must, at the very least, display some environmental awareness and operatewith a level of environmental responsibility.Man’s contribution to climate change largely originates from the generation of greenhouse gases produced as a consequence of activities such as agriculture, industrial processes, transportand the use of fossil fuels for energy generation (see http://www.direct.gov.uk/en/Environmentandgreenerliving/Thewiderenvironment/Climatechange/DG_072920). One of the greatest challenges for the 21st century, therefore, is to reduce our dependence on fossil fuels by finding environmentally acceptable alternatives.By and large, fossil fuels such as coal are used to produce energy for the commercial and domestic sectors, i.e. heat and electricity. Oil, when refined, has additional utility in the form of transport fuels and chemicals. Whilst transport fuels touch almost all of our everyday lives as the energy source for our motorised vehicles, the products made from petrochemicals pervade society toan even greater extent. Examples include: plastics, soaps and detergents, drugs, paints, resins, fabrics and fibres, explosives, pesticides and fertilisers.A variety of renewable solutions are also available for the production of energy, including wind turbines, tidal barrages, solar cells and biomass. However, biomass sources such as Miscanthus, reed canary grass, willow and perennial ryegrass, are uniquely placed not only to provide energy,as demonstrated by the co-firing of coal with Miscanthus, but also to serve as ’feedstocks‘ for the production of renewable transport fuels and chemicals derived from their constituent sugars and lignins.

AB - Over the last ten years, there has been a step change in how both the public and government view the environment. Where once the dollar was king, we now see a shift in position to where commercial activities must, at the very least, display some environmental awareness and operatewith a level of environmental responsibility.Man’s contribution to climate change largely originates from the generation of greenhouse gases produced as a consequence of activities such as agriculture, industrial processes, transportand the use of fossil fuels for energy generation (see http://www.direct.gov.uk/en/Environmentandgreenerliving/Thewiderenvironment/Climatechange/DG_072920). One of the greatest challenges for the 21st century, therefore, is to reduce our dependence on fossil fuels by finding environmentally acceptable alternatives.By and large, fossil fuels such as coal are used to produce energy for the commercial and domestic sectors, i.e. heat and electricity. Oil, when refined, has additional utility in the form of transport fuels and chemicals. Whilst transport fuels touch almost all of our everyday lives as the energy source for our motorised vehicles, the products made from petrochemicals pervade society toan even greater extent. Examples include: plastics, soaps and detergents, drugs, paints, resins, fabrics and fibres, explosives, pesticides and fertilisers.A variety of renewable solutions are also available for the production of energy, including wind turbines, tidal barrages, solar cells and biomass. However, biomass sources such as Miscanthus, reed canary grass, willow and perennial ryegrass, are uniquely placed not only to provide energy,as demonstrated by the co-firing of coal with Miscanthus, but also to serve as ’feedstocks‘ for the production of renewable transport fuels and chemicals derived from their constituent sugars and lignins.

M3 - Journal article

VL - 2

SP - 11

EP - 14

JO - IBERS Knowledge Based Innovations

JF - IBERS Knowledge Based Innovations

ER -