3.5. Effects of other possible fact

3.5. Effects of other possible factors on the pyrolysis behavior of RDF
and straw pellets in a fixed-bed gasifier
From the above analysis, it could be concluded that the swelling
behavior of the RDF particles is significant and strongly depends on
its thermoplastic properties and heterogeneous structure. However,
in addition to these factors, the pressure and particle size also
can affect the swelling and shrinkage behavior. Numerical studies
on the effect of pressure on the swelling behavior of softening coals
have been carried out and published. The swelling process is actually
a mass transfer process of the volatiles through the solid and
liquid masses, and the increased pressure provides a larger resistance
to the transport of liquids to the surface of the particle. With
the change in the external pressure, the vapor–liquid equilibrium
becomes more important by forcing the higher-molecular-weight
material to remain as a liquid rather than evaporating under higher
pressure [43]. However, the phenomena by which a coal particle
exhibited almost no swelling at pressures but swelled significantly
under elevated pressures also was observed and reported [41]. All
of these reported results indicate the existence of a complex variation
of materials during the devolatilization and swelling behavior
with applied pressure. The density and the size of the
particle, which affect the volatile mass and transfer process significantly,
also could affect the mass transfer process.
Considerable interest exists in the pretreatment of coals to
modify their swelling properties and improve their behavior during
gasification; thus, many types of additives (mainly inexpensive
mineral and inorganic compounds) have been added to study their
ability to influence the swelling and plastic properties of coals.
These additives include Fe2O3, NaOH, CaO, MgO, Fe3O4, SiO2