Abstract
Experiments of municipal solid waste (MSW) pyrolysis were carried out in a self-design fixed bed reactor. Polyethylene (PE), paper pulp and bamboo (chopsticks) were adopted to represent three major components in MSW in the experiments. The effects of moisture content (0, 50% and 66.7%) and CaO (0, 2g and 4g) on product composition and lower heating value (LHV) of syngas were investigated. The temperature was set at 900°C and each MSW sample was 4g in each test. The results indicated that increasing moisture content led to lower H2 concentration but higher tar yield in paper pulp and bamboo pyrolysis, but the influence was converse in PE pyrolysis; the addition of CaO promoted H2 production but reduced tar yield; the maximum LHV of syngas was achieved at zero moisture content in bamboo and paper pulp pyrolysis, while that was achieved at 66.7% moisture content in PE pyrolysis.
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