Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; Wheat straw; Calcium hydroxide; Carbonate; LignocelluloseWSS, filtered wheat straw solids; WSH, wheat straw hydrolysate; TWS, total wheat straw
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Keywords: بیوهیدروژن; Renewables; Biofuel; Biomass; Biodiesel; Biohydrogen;
Keywords: بیوهیدروژن; Anaerobic digestion; Biohydrogen; Dark fermentation; Furfural; 5-Hydroxymethylfurfural; Thermo-chemical pretreatments; Phenolic compounds
Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; hydA genes; Lignocellulosic residues; Solid-state processes;
Keywords: بیوهیدروژن; Biohydrogen; Biorefinery; Wheat straw; Wheat grains; Caldicellulosiruptor saccharolyticus;
Keywords: بیوهیدروژن; Biohydrogen; Ozone pretreatment; Barley straw; Lignin degradation; Dark fermentation;
Keywords: بیوهیدروژن; Biohydrogen; Silver nanoparticles; Alkaline pretreatment; Lag phase;
Keywords: بیوهیدروژن; Oil palm empty fruit bunch (OPEFB); Pentose-rich molasses; Biohydrogen; Clostridium butyricum KBH1;
Keywords: بیوهیدروژن; Biohydrogen; Ozonation; Pretreatment; Wheat straw; Lignin degradation; Dark fermentation;
Keywords: بیوهیدروژن; Biohydrogen; Glycerol; Biodiesel; Clostridium butyricum; Clostridium pasteurianum; Klebsiella sp.;
Keywords: بیوهیدروژن; Biomass hydrolyzate; Biohydrogen; Oil palm empty fruit bunch; Pretreatment; Dark fermentation; Sulfuric acid;
Keywords: بیوهیدروژن; Hydrogen; Biohydrogen; Membrane; Mixed gas; Separation; Purification;
Keywords: بیوهیدروژن; Biohydrogen; Anaerobic fermentation; Ammonia; Biogas; Food waste;
Keywords: بیوهیدروژن; Dark fermentation; Mixotrophic growth; Microalgae; Biohydrogen; Chlorella vulgaris; Clostridium butyricum;
Keywords: بیوهیدروژن; Biohydrogen; Scenedesmus obliquus; CO2 emissions; Energy consumption; Scale-up scenarios;
Keywords: بیوهیدروژن; C/N; carbon to nitrogen ratio; DOPF; dufferin organics processing facility; FA; free ammonia; FW; food waste; PS; primary sludge; SCOD; soluble chemical oxygen demand; SSO; source separated organics; S0/X0; initial substrate-to-biomass ratio; TA; total am
Keywords: بیوهیدروژن; Life cycle assessment; Biohydrogen; Biomass potential;
Keywords: بیوهیدروژن; Biohydrogen; Continental technology roadmap; Dynamic GTAP model;
Keywords: بیوهیدروژن; Microbial electrolysis cell (MEC); Biohydrogen; Acidogenic effluents; Poised potential; Dehydrogenase activity;
Keywords: بیوهیدروژن; Biohydrogen; Biomass; Fermentation; Hybrid renewable energy system;
Keywords: بیوهیدروژن; SOFC; CFD modeling; Biohydrogen; Experimental set up; Water gas shift reaction;
Keywords: بیوهیدروژن; Stirred bioreactor; Vortex-ingesting; Turbulent flow; Attached-growth process; PIV; Biohydrogen;
Keywords: بیوهیدروژن; Anaerobic digestion; Biomethane; Biohydrogen; Transport fuel; Life cycle assessment;
Keywords: بیوهیدروژن; Biohydrogen; Chemostat; Dark fermentation; Microbial interactions; Minority bacteria; Mixed cultures;
Keywords: بیوهیدروژن; Biohythane; Biohydrogen; Dark fermentation; Two-stage production; Waste biomass;
Keywords: بیوهیدروژن; Biohydrogen; Membrane; Separation; Polymer; Ionic liquid; Integrated system;
Keywords: بیوهیدروژن; Palm oil mill effluent (POME); Sustainability; Polyhydroxyalkanoate (PHA); Biohydrogen;
Keywords: بیوهیدروژن; PHA; Polyhydroxyalkanoate; PHB; Polyhydroxybutyrate; HAs; Hydroxyacids; HB; Hydroxybutyrate; HV; Hydroxyvalerate; HHx; Hydroxyhexanoate; HO; Hydroxyoctanoate; HD; Hydroxydecanoate; HDD; Hydroxydodecanoate; DCW; Dry cell weight; Mn; Number average molecula
Keywords: بیوهیدروژن; Biohydrogen; Fermentation; Pure cultures; Mesophilic; Thermophilic; Anaerobic;
Keywords: بیوهیدروژن; Biohydrogen; Clostridium sp; Dark fermentation; Lactic acid; Organic acid; Lactose
Keywords: بیوهیدروژن; Biohydrogen; Central composite design (CCD); Response surface methodology (RSM); Sugarcane bagasse; Hydrolysate
Keywords: بیوهیدروژن; Biohydrogen; Photofermentation; Poly-β-hydroxybutyrate; Dark fermentation
Keywords: بیوهیدروژن; Anaerobic membrane bioreactors; Bioproducts; Volatile fatty acids; Biohydrogen; Methane; Assessment
Keywords: بیوهیدروژن; Bioelectrochemical systems; Microbial electrohydrogenesis cell; Microbial electrolysis cell; Microbial fuel cell; Biohydrogen; Start-up;
Sequential dark and photo fermentation hydrogen production from hydrolyzed corn stover: A pilot test using 11â¯m3 reactor
Keywords: بیوهیدروژن; Biohydrogen; Sequential dark and photo fermentation; Reactor design; Continuous operation; Corn stover;
Impact of cultural conditions on photoproduction of hydrogen by Allochromatium sp. GSKRLMBKU-01 isolated from marine water of Visakhapatnam
Keywords: بیوهیدروژن; Allochromatium sp.; Phototrophic; Biohydrogen; Culture medium; pH; Carbon and Nitrogen sources;
Assessment via the modified gompertz-model reveals new insights concerning the effects of ionic liquids on biohydrogen production
Keywords: بیوهیدروژن; Biohydrogen; Ionic liquid; Lignocellulose; Inhibition; Modified gompertz-model;
Surfactant assisted disperser pretreatment on the liquefaction of Ulva reticulata and evaluation of biodegradability for energy efficient biofuel production through nonlinear regression modelling
Keywords: بیوهیدروژن; Chemo mechanical; Biohydrogen; Fermentation; Specific energy; Algal biomass;
Optimization of biomass and hydrogen production by Anabaena sp. (UTEX 1448) in nitrogen-deprived cultures
Keywords: بیوهیدروژن; Cyanobacteria; Biohydrogen; Biophotolysis; Hydrogenase; Nitrogenase; Photobioreactor;
Fermentative hydrogen production from microalgal biomass by a single strain of bacterium Enterobacter aerogenes - Effect of operational conditions and fermentation kinetics
Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; Enterobacter aerogenes; Scenedesmus obliquus; Microalga; Operational conditions;
The effect of HRT on biohydrogen production from acid hydrolyzed waste wheat in a continuously operated packed bed reactor
Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; Hydraulic retention time; Packed bed; Waste wheat;
Effects of process, operational and environmental variables on biohydrogen production using palm oil mill effluent (POME)
Keywords: بیوهیدروژن; Palm oil mill effluent (POME); Biohydrogen; COD removal; Response surface methodology (RSM);
Technical evaluation of post-combustion CO2 capture and hydrogen production industrial symbiosis
Keywords: بیوهیدروژن; Biohydrogen; Biorefinery; CO2 capture; Industrial ecology; Waste;
Pretreatment of macroalgal Laminaria japonica by combined microwave-acid method for biohydrogen production
Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; Macroalgae; Laminaria japonica; Pretreatment;
The photosynthetic hydrogen production performance of a newly isolated Rhodobacter capsulatus JL1 with various carbon sources
Keywords: بیوهیدروژن; Photosynthetic bacteria; Biohydrogen; pH value; Carbon source; Corn straw hydrolysate;
Enterobacter aerogenes metabolites enhance Microcystis aeruginosa biomass recovery for sustainable bioflocculant and biohydrogen production
Keywords: بیوهیدروژن; Bioresource recycling; Transcriptome; Bioflocculation; E. aerogenes; Biohydrogen; Metabolic pathways;
Mathematical modelling for biohydrogen production by Clostridium beijerinckii
Keywords: بیوهیدروژن; Biohydrogen; Dark fermentation; Clostridium; ADM1; Fermentation by-products;
Evaluating new bio-hydrogen producers: Clostridium perfringens strain JJC, Clostridium bifermentans strain WYM and Clostridium sp. strain Ade.TY
Keywords: بیوهیدروژن; Thermodynamics; Biohydrogen; Clostridium spp.; Hydrogenase; Dark fermentation;
Effect of substrate concentration on the competition between Clostridium and Lactobacillus during biohydrogen production
Keywords: بیوهیدروژن; Biohydrogen; Clostridium; Lactobacillus; Organic acids; Substrate competition; Substrate concentration;
Potential of biohydrogen generation using the delignified lignocellulosic biomass by a newly identified thermostable laccase from Trichoderma asperellum strain BPLMBT1
Keywords: بیوهیدروژن; T. asperellum; Thermostability; Delignification; Biohydrogen; Lignocellulosic biomass;