4.1. Thermal pyrolysis of polyolefi

4.1. Thermal pyrolysis of polyolefins
The non-catalytic or thermal pyrolysis of polyolefins is a high
energy, endothermic process requiring temperatures of at least
350–500 8C [30–32]. In some studies, temperatures as high as 700–
900 8C are essential in achieving decent product yields [33–35].
Thermal pyrolysis of both virgin and waste plastics as well as other
hydro-carbonaceous sources has been studied extensively in the
past. A good number of these thermal cracking studies are on
polyethylene [30,36–50], polystyrene [32,36–40], and polypropylene
[31,37,38,41–55]. On the other hand, only a few have worked
on the thermal decomposition of other common plastics such as
polyvinylchloride [56,57], polymethyl methacrylate [45], polyurethane
[58] and polyethylene terephthalate [57].
Generally, thermal cracking results in liquids with low octane
value and higher residue contents at moderate temperatures, thus
an inefficient process for producing gasoline range fuels [38,52].
The gaseous products obtained by thermal pyrolysis are not
suitable for use as fuel products, requiring further refining to be
upgraded to useable fuel products [59,60]. A few researchers have
sought to improve thermal pyrolysis of waste polyolefins without
employing the use of catalysts; however these changes either
yielded insignificant improvements or added another level of
complexity and costs to the system [52,61]