Synergistic co-steam gasification of biomass and refuse-derived fuel: A path to enhanced gasification performance

Environmental Technology & Innovation, Journal Year: 2024, Volume and Issue: 36, P. 103745 - 103745

Published: July 10, 2024

The co-steam gasification of biomass (straw) and Refuse-Derived Fuel (RDF) presents a promising pathway for sustainable waste management renewable energy production, with significant implications environmental protection. This study investigates the co-gasification straw RDF to optimize syngas production minimize undesired by-products. optimization S/M ratio temperature is crucial efficient gasification. optimal balance yield, quality (LHV), process efficiency (carbon conversion cold gas efficiency), while minimizing hazards from solid residues. carbon increased by 12.7 % at 0 f 0.75 800°C, improvement compared efficiencies observed separate RDF. Additionally, yield were 14.43 26.42 processes, respectively. These results demonstrate synergistic effects co-gasifying RDF, enhancing performance reducing tar formation. underscores potential as technologically viable environmentally friendly approach waste-to-energy conversion, emphasizing importance operational achieving superior recovery, resource efficiency, reduced impact.

Language: Английский

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Effects of impurities on the syngas fermentation: Mechanism and future perspectives

Bioresource Technology, Journal Year: 2025, Volume and Issue: unknown, P. 132301 - 132301

Published: Feb. 1, 2025

Language: Английский

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Improved biohydrogen production using Ni/ZrxCeyO2 loaded on foam reactor through steam gasification of sewage sludge

Bioresource Technology, Journal Year: 2024, Volume and Issue: unknown, P. 131530 - 131530

Published: Sept. 1, 2024

Language: Английский

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Synergistic Co-Steam Gasification of Biomass and Refuse-Derived Fuel: A Path to Enhanced Gasification Performance

Published: Jan. 1, 2024

The co-steam gasification of biomass (straw) and Refuse-Derived Fuel (RDF) presents a promising pathway for sustainable waste management renewable energy production, with significant implications environmental protection. This study investigates the impact temperature steam-to-biomass (S/M) ratio on process's efficiency, syngas quality, outcomes. experiments reveal that optimizing these operational parameters is crucial enhancing production-rich in hydrogen (H2) carbon monoxide (CO)-while minimizing generation tar other undesirable by-products. An optimal S/M was identified maximizes H2 CO yields promotes conversion thereby improving profile process. Higher temperatures were found to further increase yield quality by facilitating mineral transformations structural changes solid residue, thus supporting recovery hazards. Notably, co-gasification RDF straw exhibited synergistic effects, leading enhanced yields, improved conversion, cold gas efficiencies, especially at elevated ratios. These synergies, attributed catalytic interactions between feedstock constituents, result output reduced CO2 CH4 levels, indicative an optimized source. underscores potential as technologically viable environmentally friendly approach waste-to-energy emphasizing importance optimization achieving superior recovery, resource impact.

Language: Английский

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