SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2908727186> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W2908727186 endingPage "18784" @default.
W2908727186 startingPage "18776" @default.
W2908727186 abstract "Abstract Dark fermentative hydrogen production from organic waste is an attractive technique that simultaneously treats waste along with generation of renewable fuel. In this study, a relative new technology named dark dry fermentation was tested in a 55-L reactor to treat fruit and vegetable waste (FVW) along with simultaneous generation of biohydrogen. To understand the effect of autoclaving as a pretreatment method on FVW for subsequent biohydrogen production, two independent experiments were performed; one with autoclaved waste (experiment I) and another by using non autoclaved waste (experiment II). From the analyses, it was found that maximum hydrogen % obtained for experiment I was 41% (v/v%) whereas, for experiment II was 21%. In terms of total hydrogen produced, around 30% higher production was observed with experiment I compared to experiment II. The hydrogen yields for experiment I and experiment II were respectively, 27.19 and 20.81 NmL H2/gVS (VS = volatile solid added), and the metabolites (VFAs) preferentially produced were acetic acid and iso-butyric acid." @default.
W2908727186 created "2019-01-25" @default.
W2908727186 creator A5002042603 @default.
W2908727186 creator A5015360315 @default.
W2908727186 creator A5020051358 @default.
W2908727186 creator A5070556535 @default.
W2908727186 creator A5074750846 @default.
W2908727186 creator A5081301945 @default.
W2908727186 date "2019-07-01" @default.
W2908727186 modified "2023-10-16" @default.
W2908727186 title "Biohydrogen production from autoclaved fruit and vegetable wastes by dry fermentation under thermophilic condition" @default.
W2908727186 cites W1973937832 @default.
W2908727186 cites W1993359730 @default.
W2908727186 cites W1995388705 @default.
W2908727186 cites W2009290573 @default.
W2908727186 cites W2010168410 @default.
W2908727186 cites W2017794591 @default.
W2908727186 cites W2020683314 @default.
W2908727186 cites W2022400765 @default.
W2908727186 cites W2026697108 @default.
W2908727186 cites W2031406182 @default.
W2908727186 cites W2039362268 @default.
W2908727186 cites W2039411104 @default.
W2908727186 cites W2049057859 @default.
W2908727186 cites W2050998838 @default.
W2908727186 cites W2065098146 @default.
W2908727186 cites W2070003004 @default.
W2908727186 cites W2071138071 @default.
W2908727186 cites W2075560066 @default.
W2908727186 cites W2094581207 @default.
W2908727186 cites W2100939912 @default.
W2908727186 cites W2140817463 @default.
W2908727186 cites W2146474650 @default.
W2908727186 cites W2170035005 @default.
W2908727186 cites W2195045083 @default.
W2908727186 cites W2205360161 @default.
W2908727186 cites W2228940409 @default.
W2908727186 cites W225031993 @default.
W2908727186 cites W2301980466 @default.
W2908727186 cites W2340613567 @default.
W2908727186 cites W2514115930 @default.
W2908727186 cites W2523591818 @default.
W2908727186 cites W2525051642 @default.
W2908727186 cites W2569886057 @default.
W2908727186 cites W2607180514 @default.
W2908727186 cites W2611481408 @default.
W2908727186 cites W2616038663 @default.
W2908727186 cites W2617020938 @default.
W2908727186 cites W2685668006 @default.
W2908727186 cites W2752248938 @default.
W2908727186 cites W2756184695 @default.
W2908727186 cites W2785481948 @default.
W2908727186 cites W2789264062 @default.
W2908727186 cites W2806097111 @default.
W2908727186 cites W2890162808 @default.
W2908727186 cites W609702966 @default.
W2908727186 cites W998527241 @default.
W2908727186 doi "https://doi.org/10.1016/j.ijhydene.2018.12.068" @default.
W2908727186 hasPublicationYear "2019" @default.
W2908727186 type Work @default.
W2908727186 sameAs 2908727186 @default.
W2908727186 citedByCount "42" @default.
W2908727186 countsByYear W29087271862019 @default.
W2908727186 countsByYear W29087271862020 @default.
W2908727186 countsByYear W29087271862021 @default.
W2908727186 countsByYear W29087271862022 @default.
W2908727186 countsByYear W29087271862023 @default.
W2908727186 crossrefType "journal-article" @default.
W2908727186 hasAuthorship W2908727186A5002042603 @default.
W2908727186 hasAuthorship W2908727186A5015360315 @default.
W2908727186 hasAuthorship W2908727186A5020051358 @default.
W2908727186 hasAuthorship W2908727186A5070556535 @default.
W2908727186 hasAuthorship W2908727186A5074750846 @default.
W2908727186 hasAuthorship W2908727186A5081301945 @default.
W2908727186 hasConcept C100544194 @default.
W2908727186 hasConcept C1124016 @default.
W2908727186 hasConcept C127413603 @default.
W2908727186 hasConcept C139719470 @default.
W2908727186 hasConcept C150903083 @default.
W2908727186 hasConcept C162324750 @default.
W2908727186 hasConcept C178790620 @default.
W2908727186 hasConcept C181199279 @default.
W2908727186 hasConcept C185592680 @default.
W2908727186 hasConcept C202189072 @default.
W2908727186 hasConcept C2778348673 @default.
W2908727186 hasConcept C27911776 @default.
W2908727186 hasConcept C31903555 @default.
W2908727186 hasConcept C39432304 @default.
W2908727186 hasConcept C512968161 @default.
W2908727186 hasConcept C528095902 @default.
W2908727186 hasConcept C548081761 @default.
W2908727186 hasConcept C55493867 @default.
W2908727186 hasConcept C86803240 @default.
W2908727186 hasConceptScore W2908727186C100544194 @default.
W2908727186 hasConceptScore W2908727186C1124016 @default.
W2908727186 hasConceptScore W2908727186C127413603 @default.
W2908727186 hasConceptScore W2908727186C139719470 @default.
W2908727186 hasConceptScore W2908727186C150903083 @default.