SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4304692648> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W4304692648 endingPage "39403" @default.
W4304692648 startingPage "39386" @default.
W4304692648 abstract "The study aims to evaluate the biogas production and quality from four biomasses (microalgae (MB), sorghum (S), corn stubble (CS), rapeseed oil (RO)) in a digestion process carried out in two batch reactor (6 L) and pilot plant (1.5 m3) agitated mechanically. The substrates were characterized and anaerobic digestion was carried out as batch tests in mesophilic conditions for 30–35 days. Inoculum/substrate ratio was 1:1–2:1. Gas composition and total gas volume produced were monitored. Methane yields of 306, 345, 419, and 740 NL kg VS−1 were obtained for MB, CS, S, and RO, respectively, in laboratory tests, while in pilot plant tests were 182, 151, 397 and 655 NL kg VS−1. CH4 percentage in biogas was 49–60%. The yield of H2 generated for the four biomasses in the two types of biodigesters has been estimated, obtaining values between 16 and 39 mL g VS−1. First-order, Modified Gompertz, and Cone models have been applied to evaluate the kinetic parameters on the methane produced in the batch and pilot plant tests, obtaining an excellent fit. ADM1 model with 19 biological processes (disintegration of biomass composite, enzymatic hydrolysis, and digestion of soluble materials mediated by organisms), acid-base equilibria, kinetic study, and liquid-gas transference has been used to fit the cumulative methane volume." @default.
W4304692648 created "2022-10-12" @default.
W4304692648 creator A5002416789 @default.
W4304692648 creator A5034016555 @default.
W4304692648 creator A5067268206 @default.
W4304692648 creator A5073582123 @default.
W4304692648 creator A5087368552 @default.
W4304692648 date "2022-12-01" @default.
W4304692648 modified "2023-09-30" @default.
W4304692648 title "Optimization of the production and quality of biogas in the anaerobic digestion of different types of biomass in a batch laboratory biodigester and pilot plant: Numerical modeling, kinetic study and hydrogen potential" @default.
W4304692648 cites W1277204148 @default.
W4304692648 cites W1980539279 @default.
W4304692648 cites W1981106024 @default.
W4304692648 cites W1986459842 @default.
W4304692648 cites W1991793984 @default.
W4304692648 cites W1998961159 @default.
W4304692648 cites W1999599764 @default.
W4304692648 cites W2002547950 @default.
W4304692648 cites W2005001251 @default.
W4304692648 cites W2007150361 @default.
W4304692648 cites W2009480187 @default.
W4304692648 cites W2020471028 @default.
W4304692648 cites W2022640744 @default.
W4304692648 cites W2027002860 @default.
W4304692648 cites W2032591425 @default.
W4304692648 cites W2036454019 @default.
W4304692648 cites W2037179587 @default.
W4304692648 cites W2038035459 @default.
W4304692648 cites W2049057859 @default.
W4304692648 cites W2052521916 @default.
W4304692648 cites W2052953435 @default.
W4304692648 cites W2055994516 @default.
W4304692648 cites W2059362683 @default.
W4304692648 cites W2061126275 @default.
W4304692648 cites W2061637381 @default.
W4304692648 cites W2066383933 @default.
W4304692648 cites W2066457736 @default.
W4304692648 cites W2147106429 @default.
W4304692648 cites W2149436386 @default.
W4304692648 cites W2176616073 @default.
W4304692648 cites W2257950388 @default.
W4304692648 cites W2259467721 @default.
W4304692648 cites W2287696867 @default.
W4304692648 cites W2299369849 @default.
W4304692648 cites W2342550492 @default.
W4304692648 cites W2345571121 @default.
W4304692648 cites W240289487 @default.
W4304692648 cites W2477325593 @default.
W4304692648 cites W2495380701 @default.
W4304692648 cites W2524035140 @default.
W4304692648 cites W2530457033 @default.
W4304692648 cites W2557238769 @default.
W4304692648 cites W2565332477 @default.
W4304692648 cites W2594329758 @default.
W4304692648 cites W2603287443 @default.
W4304692648 cites W2743017744 @default.
W4304692648 cites W2758064020 @default.
W4304692648 cites W2769742859 @default.
W4304692648 cites W2791654371 @default.
W4304692648 cites W2802668552 @default.
W4304692648 cites W2804556200 @default.
W4304692648 cites W2884950614 @default.
W4304692648 cites W2888229476 @default.
W4304692648 cites W2889902838 @default.
W4304692648 cites W2913133239 @default.
W4304692648 cites W3002256819 @default.
W4304692648 cites W3018481876 @default.
W4304692648 cites W3023373915 @default.
W4304692648 cites W3043704779 @default.
W4304692648 cites W3081244164 @default.
W4304692648 cites W3156287938 @default.
W4304692648 cites W3196900039 @default.
W4304692648 cites W4206367580 @default.
W4304692648 doi "https://doi.org/10.1016/j.ijhydene.2022.09.113" @default.
W4304692648 hasPublicationYear "2022" @default.
W4304692648 type Work @default.
W4304692648 citedByCount "3" @default.
W4304692648 countsByYear W43046926482023 @default.
W4304692648 crossrefType "journal-article" @default.
W4304692648 hasAuthorship W4304692648A5002416789 @default.
W4304692648 hasAuthorship W4304692648A5034016555 @default.
W4304692648 hasAuthorship W4304692648A5067268206 @default.
W4304692648 hasAuthorship W4304692648A5073582123 @default.
W4304692648 hasAuthorship W4304692648A5087368552 @default.
W4304692648 hasConcept C115540264 @default.
W4304692648 hasConcept C121332964 @default.
W4304692648 hasConcept C127413603 @default.
W4304692648 hasConcept C156380964 @default.
W4304692648 hasConcept C178790620 @default.
W4304692648 hasConcept C185592680 @default.
W4304692648 hasConcept C20556612 @default.
W4304692648 hasConcept C2780956279 @default.
W4304692648 hasConcept C39432304 @default.
W4304692648 hasConcept C499616599 @default.
W4304692648 hasConcept C516920438 @default.
W4304692648 hasConcept C523546767 @default.
W4304692648 hasConcept C528095902 @default.
W4304692648 hasConcept C53991642 @default.