Chemical fuels are substances that release energy by reacting with substances around them, most notably by the process of
combustion. Chemical fuels are divided in two ways. First, by their physical properties, as a solid, liquid or gas. Secondly, on the basis of their occurrence:
primary (natural fuel) and
secondary (artificial fuel). Thus, a general classification of chemical fuels is: File:Charcoal.jpg|
Charcoal File:Saterland peat digging by hand 1963.jpg|
Peat digging by hand in
Saterland, 1963 -->
Solid fuel is a solid fuel Solid fuel refers to various types of
solid material that are used as fuel to produce
energy and provide
heating, usually released through combustion. Solid fuels include
wood,
charcoal,
peat,
coal,
hexamine fuel tablets, and pellets made from wood (see
wood pellets),
corn,
wheat,
rye and other
grains.
Solid-fuel rocket technology also uses solid fuel (see
solid propellants). Solid fuels have been used by humanity for many years to
create fire. Coal was the fuel source which enabled the
Industrial Revolution, from firing
furnaces, to running
steam engines. Wood was also extensively used to run
steam locomotives. Both peat and coal are still used in
electricity generation today. The use of some solid fuels (e.g. coal) is restricted or prohibited in some urban areas, due to unsafe levels of toxic emissions. The use of other solid fuels as wood is decreasing as heating technology and the availability of good quality fuel improves. In some areas,
smokeless coal is often the only solid fuel used. In Ireland, peat
briquettes are used as smokeless fuel. They are also used to start a coal fire.
Liquid fuels Liquid fuels are combustible or energy-generating molecules that can be harnessed to create
mechanical energy, usually producing
kinetic energy. They must also take the shape of their container; the fumes of liquid fuels are flammable, not the fluids. Most liquid fuels in widespread use are derived from the
fossilized remains of dead plants and animals by exposure to heat and pressure inside the Earth's crust. However, there are several types, such as
hydrogen fuel (for
automotive uses),
ethanol,
jet fuel and
bio-diesel, which are all categorized as liquid fuels.
Emulsified fuels of oil in water, such as
orimulsion, have been developed as a way to make heavy oil fractions usable as liquid fuels. Many liquid fuels play a primary role in transportation and the economy. Some common properties of liquid fuels are that they are easy to transport and can be handled easily. They are also relatively easy to use for all engineering applications and in home use. Fuels like
kerosene are rationed in some countries, for example in government-subsidized shops in India for home use. Conventional
diesel is similar to
gasoline in that it is a mixture of
aliphatic hydrocarbons extracted from
petroleum. Kerosene is used in
kerosene lamps and as a fuel for cooking, heating, and small engines.
Natural gas, composed chiefly of
methane, can only exist as a liquid at very low temperatures (regardless of pressure), which limits its direct use as a liquid fuel in most applications.
LP gas is a mixture of
propane and
butane, both of which are easily compressible gases under standard atmospheric conditions. It offers many of the advantages of
compressed natural gas (CNG) but is denser than air, does not burn as cleanly, and is much more easily compressed. Commonly used for cooking and space heating, LP gas and compressed propane are seeing increased use in motorized vehicles. Propane is the third most commonly used motor fuel globally. File:Diesel in mason jar.JPG|Locomotive diesel File:Gasoline in mason jar.jpg|Gasoline File:Kerosene in mason jar.JPG|Kerosene File:Petro motor oil.jpg|Petroleum based motor oil File:Residual fuel oil.JPG|Residual fuel oil or
Bunker C oil Fuel gas Fuel gas is any one of a number of fuels that are
gaseous under ordinary conditions. Many fuel gases are composed of
hydrocarbons (such as
methane or
propane),
hydrogen,
carbon monoxide, or mixtures thereof. Such gases are sources of potential
heat energy or
light energy that can be readily transmitted and distributed through pipes from the point of origin directly to the place of consumption. Fuel gas is contrasted with liquid fuels and from solid fuels, though some fuel gases are
liquefied for storage or transport. While their gaseous nature can be advantageous, avoiding the difficulty of transporting solid fuel and the dangers of spillage inherent in liquid fuels, it can also be dangerous. It is possible for a fuel gas to be undetected and collect in certain areas, leading to the risk of a
gas explosion. For this reason,
odorizers are added to most fuel gases so that they may be detected by a distinct smell. The most common type of fuel gas in current use is
natural gas.
Biofuels Biofuel can be broadly defined as solid, liquid, or gas fuel consisting of, or derived from
biomass. Biomass can also be used directly for heating or power—known as
biomass fuel. Biofuel can be produced from any carbon source that can be replenished rapidly e.g. plants. Many different plants and plant-derived materials are used for biofuel manufacture. Perhaps the earliest fuel employed by humans is wood. Evidence shows controlled fire was used up to 1.5 million years ago at
Swartkrans, South Africa. It is unknown which hominid species first used fire, as both
Australopithecus and an early species of
Homo were present at the sites. As a fuel, wood has remained in use up until the present day, although it has been superseded for many purposes by other sources. Wood has an
energy density of 10–20
MJ/
kg. Recently biofuels have been developed for use in automotive transport (for example
bioethanol and
biodiesel), but there is widespread public debate about how
carbon neutral these fuels are.
Fossil fuels Fossil fuels are
hydrocarbons, primarily
coal and
petroleum (
liquid petroleum or
natural gas), formed from the
fossilized remains of ancient plants and animals by exposure to high heat and pressure in the absence of oxygen in the
Earth's crust over hundreds of millions of years. Commonly, the term fossil fuel also includes hydrocarbon-containing
natural resources that are not derived entirely from biological sources, such as
tar sands. These latter sources are properly known as
mineral fuels. Fossil fuels contain high percentages of
carbon and include coal, petroleum, and natural gas. They range from
volatile materials with low carbon:
hydrogen ratios like
methane, to liquid petroleum to nonvolatile materials composed of almost pure carbon, like
anthracite coal. Methane can be found in hydrocarbon fields, alone, associated with oil, or in the form of
methane clathrates. Fossil fuels formed from the fossilized remains of dead plants This
biogenic theory was first introduced by German scholar
Georg Agricola in 1556 and later by
Mikhail Lomonosov in the 18th century. It was estimated by the
Energy Information Administration that in 2007 primary sources of energy consisted of petroleum 36.0%, coal 27.4%, natural gas 23.0%, amounting to an 86.4% share for fossil fuels in primary
energy consumption in the world. Non-fossil sources in 2006 included
hydroelectric 6.3%,
nuclear 8.5%, and others (
geothermal,
solar,
tidal,
wind,
wood,
waste) amounting to 0.9%.
World energy consumption was growing about 2.3% per year. Fossil fuels are
non-renewable resources because they take millions of years to form, and reserves are being depleted much faster than new ones are being made. So we must conserve these fuels and use them judiciously. The production and use of fossil fuels raise environmental concerns. A global movement toward the generation of
renewable energy is therefore under way to help meet increased energy needs. The burning of fossil fuels produces around 21.3 billion
tonnes (21.3
gigatonnes) of
carbon dioxide (CO2) per year, but it is estimated that natural processes can only absorb about half of that amount, so there is a net increase of 10.65 billion tonnes of atmospheric carbon dioxide per year (one tonne of atmospheric carbon is equivalent to (this is the ratio of the molecular/atomic weights) or 3.7 tonnes of CO2. Carbon dioxide is one of the
greenhouse gases that enhances
radiative forcing and contributes to
global warming, causing the
average surface temperature of the Earth to rise in response, which
the vast majority of climate scientists agree will cause major
adverse effects. Fuels are a source of energy. The International Energy Agency (IEA) predicts that fossil fuel prices will decline, with oil stabilizing around $75 to $80 per barrel as electric vehicle adoption surges and renewable energy expands. Additionally, the IEA anticipates a notable increase in liquefied natural gas capacity, enhancing Europe's energy diversification.
Energy The amount of energy from different types of fuel depends on the
stoichiometric ratio, the chemically correct air and fuel ratio to ensure complete combustion of fuel, and its
specific energy, the energy per unit mass. ;Notes 1
MJ ≈ 0.28
kWh ≈ 0.37
HPh. (The fuel-air ratio (FAR) is the reciprocal of the air-fuel ratio (AFR).)
λ is the air-fuel equivalence ratio, and
λ=1 means that it is assumed that the fuel and the oxidising agent (oxygen in air) are present in exactly the correct proportions so that they are both fully consumed in the reaction. ==Nuclear==