Fe3O4 enhanced efficiency of volatile fatty acids production in
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Facile synthesis of highly efficient and recyclable magnetic solid acid from biomass waste
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Sawdust-Derived Biochar Much Mitigates VFAs Accumulation and Improves Microbial Activities To Enhance Methane Production in Thermophilic Anaerobic Digestion
Performance and Mechanism of Fe3O4 Improving Biotransformation of Waste Activated Sludge into Liquid High-Value Products
Biosynthesis of Fe3O4 MNPs from Vicia faba L. peels: promising catalyst for enhanced biogas production from wheat straw
Experimental evaluation of the influence of combined particle size pretreatment and Fe3O4 additive on fuel yields of Arachis Hypogea shells - Kehinde O Olatunji, Daniel M Madyira, Noor A Ahmed, Oyetola Ogunkunle
Biosynthesis of Fe3O4 MNPs from Vicia faba L. peels: promising catalyst for enhanced biogas production from wheat straw
a EIS plots and b CV curves of the SCMFCs, c How Fe3O4 doping could
Review and perspectives of enhanced volatile fatty acids production from acidogenic fermentation of lignocellulosic biomass wastes, Bioresources and Bioprocessing
Study on Dissolution Characteristics of Excess Sludge by Low-Temperature Thermal Hydrolysis and Acid Production by Fermentation
Effect of composition of volatile fatty acids on yield of polyhydroxyalkanoates and mechanisms of bioconversion from activated sludge - ScienceDirect
Fe3O4 enhanced efficiency of volatile fatty acids production in anaerobic fermentation of food waste at high loading - ScienceDirect
Enhanced economic benefit of recycling Fe3O4 for promotion of volatile fatty acids production in anaerobic fermentation of food waste - ScienceDirect
a Venn diagram analysis and the number of the operational taxonomic
