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Hydrogen‐Rich Syngas Production by DC Thermal Plasma Steam Gasification from Biomass and Plastic Mixtures

Wenchao Ma, Chu Chu, Ping Wang, Zhenfei Guo, Shijun Lei, Lei Zhong, GuanYi Chen

2020Advanced Sustainable Systems26 citationsDOI

Abstract

Abstract Recently, thermal plasma gasification has attracted much attention due to hydrogen‐rich syngas production. In this research, wood sawdust and high density polyethylene (HDPE) mixtures have been investigated under plasma steam gasification with various HDPE contents (0–100%), at different input plasma powers (16–24 kW) and varying steam flow/carbon flow (S/C) ratios (0.2–1.8). The single‐factor analysis indicates that the real H 2 yield at 80 wt% HDPE is 23.99% higher than the theoretically calculated results. This significant improvement in hydrogen yield confirms the synergetic gasification effects between HDPE and biomass. The yield and proportion of H 2 show a climbing trend with the increase of input power, while showing a trend from rising to descending with the increase of S/C ratio. Under the optimal conditions (the HDPE ratio of 80%, the input power of 22 kW, the S/C ratio of 1.0), the H 2 yield is as high as 78.55 mol kg −1 and the proportion of H 2 in syngas reaches 66.91%. Redundancy analysis shows that the HDPE content, input power and S/C ratio can explain 39.8%, 12.4%, and 10.6% of the variations of syngas properties respectively. The input power has the largest correlation with the increase of H 2 yield among these three factors.

Topics & Concepts

High-density polyethyleneSyngasMaterials scienceYield (engineering)Biomass (ecology)HydrogenChemical engineeringPolyethyleneChemistryComposite materialOrganic chemistryAgronomyEngineeringBiologyThermochemical Biomass Conversion ProcessesRecycling and Waste Management TechniquesPolymer crystallization and properties
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