Abstract
A continuous process has been developed consisting in the flash pyrolysis (500°C) of high density polyethylene (HDPE) in a conical spouted bed reactor (CSBR) followed by steam reforming in a fluidized bed reactor (Ni commercial catalyst). The effect reforming temperature in the 600–700°C range, space time from 2.1 to 20.8gcatmingHDPE−1 and steam/plastic ratio between 3 and 5 have on product yields and gas composition has been studied. The continuous pyrolysis-reforming process performs well, with no operational problems and attaining complete HDPE conversion. Under the optimum conditions, i.e., 700°C, space time 16.7gcatmingHDPE−1 and steam/plastic of ratio 5, the H2 yield was 92.5% of that corresponding to stoichometry, which accounts for a H2 production of 38.1g per 100g of HDPE in the feed.
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