The calorific value of a fuel can be calculated by the given formula,
                         Heat  produced  on complete  combustion  of the  fuel
       Calorific value =
                                 Total  mass  of the  fuel  combusted
       Sample Problem

       in an experiment, 4.5kg of a fuel was completely burnt. The heat produced was measured to be
       180,00KJ. Calculate the calorific value of the fuel.

       Answer. The calorific value of a fuel is the heat produced by burning 1Kg of fuel. Now, the heat
       produced by burning 4.5kg fuel = 180000 kJ

                                                       180000  x 1
       So, the heat produced by burning 1 kg fuel =               = 40000kJ/kg.
                                                           4.5
       Thus, the calorific value of the given fuel is 40000kJ/kg.





       Characteristics of an ideal fuel

       1.  It has a high calorific value, or it produces a large amount of heat.
       2.  It burns easily in the air at a moderate rate.
       3.  It has a proper ignition temperature.
       4.  It does not produce any harmful gases or leaves any residue after burning.
       5.  It is cheap, readily available, and easy to transport.

       Flame

       A flame is a region where the combustion of gaseous substances takes place. Only those solid
       and liquid fuels which vaporise on being heated, burn with a flame.
       Some of the substances which burn by producing flames are LPG, biogas, wax, etc.

       Some fuels burn without flame, for example, charcoal, coal, etc.

       When fuels burn, the type of fame produced depends on the proportion of oxygen which is
       available for burning the fuel.

       1.  When the oxygen supply is insufficient, then the fuels burn incompletely producing mainly a
          yellow flame. The yellow flame is caused by the glow of hot unburnt carbon particles
          produced due to incomplete combustion fuel. This yellow flame produces light, so it is said to
          be a luminous flame.
       2.  When the oxygen supply is sufficient, then the fuels burn completely producing mainly a blue
          flame. This blue flame does not produce much light, so it is said to be a non -luminous flame

       Structure of a flame

       A flame consists of three zones. These are the innermost zone, middle zone, and the outermost
       zone.

         I.   The innermost zone of a flame is dark. It consists of hot, unburnt vapours of the
              combustible material. It is the least hot zone of the flame.


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