Chapter | 1  Introduction                                     13


                In pyrolysis, large hydrocarbon molecules of biomass are broken down
             into smaller molecules. Fast pyrolysis produces mainly liquid fuel, known as
             bio-oil, whereas slow pyrolysis produces some gas and solid charcoal (one of
             the most ancient fuels, used for heating and metal extraction before the dis-
             covery of coal). Pyrolysis is promising for conversion of waste biomass into
             useful liquid fuels. Unlike combustion, it is not exothermic.

             1.2.2.3 Torrefaction
             Torrefaction is being considered for effective utilization of biomass as a clean
             and convenient solid fuel. In this process, the biomass is slowly heated to

             200 300 C without or little contact with oxygen. Torrefaction alters the
             chemical structure of biomass hydrocarbon to increase its carbon content while
             reducing its oxygen. Torrefaction also increases the energy density of the bio-
             mass and makes the biomass hygroscopic. These attributes thus enhance the
             commercial value of wood for energy production and transportation.

             1.2.2.4 Gasification
             Gasification converts fossil or nonfossil fuels (solid, liquid, or gaseous) into
             useful gases and chemicals. It requires a medium for reaction, which can be
             gas or supercritical water (not to be confused with ordinary water at subcriti-
             cal condition). Gaseous mediums include air, oxygen, subcritical steam, or a
             mixture of these.
                Presently, gasification of fossil fuels is more common than that of nonfossil
             fuels like biomass for production of synthetic gases. It essentially converts a
             potential fuel from one form to another. There are several major motivations
             for such a transformation and are as follows:
               To increase the heating value of the fuel by rejecting noncombustible
               components like nitrogen and water.
               To strip the fuel gas of sulfur such that it is not released into the atmo-
               sphere when the gas is burnt.
               To increase the H/C mass ratio in the fuel.
               To reduce the oxygen content of the fuel.
                In general, the higher the hydrogen content of a fuel, the lower the vapor-
             ization temperature and the higher the probability of the fuel being in a gas-
             eous state. Gasification or pyrolysis increases the relative hydrogen content
             (H/C ratio) in the product through one the following means:
             1. Direct: Direct exposure to hydrogen at high pressure.
             2. Indirect: Exposure to steam at high temperature and pressure, where
                hydrogen, an intermediate product, is added to the product. This process
                also includes steam reforming.
             3. Pyrolysis or devolatilization: Reduction in carbon content by rejecting it
                via solid char or CO 2 gas.