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Waste high-density polyethylene (HDPE) was catalytically degraded using CaCO 3 as a basic catalyst. Various parameters like temperature, catalyst to polymer ratio (cat/pol) and reaction time were explored in order to find out optimum reaction conditions. Total conversion of 97.20% was achieved with 52.33% oil yield and 53.84% oil selectivity. Sufficient quantity of the oil product was collected...
Waste high-density polyethylene (HDPE) was degraded thermally and catalytically using BaCO 3 as a catalyst under different conditions of temperature, cat/pol ratio and time. The oil collected at optimum conditions (450°C, 0.1 cat/pol ratio and 2h reaction time) was fractionated at different temperatures and fuel property of the fractions and parent oil was evaluated by their physicochemical...
High-density polyethylene (HDPE) has been degraded thermally and catalytically using MgCO 3 at 450°C into liquid fraction in a batch reactor. Different conditions like temperature, time and catalyst ratio were optimized for the maximum conversion of HDPE into liquid fraction. Catalytic degradation yielded 92% liquid fraction whereas 90% wax was obtained with thermal degradation. The composition...
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