SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2989754845> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2989754845 endingPage "122499" @default.
W2989754845 startingPage "122499" @default.
W2989754845 abstract "In this study, CH4 production from anaerobic digestion (AD) of refractory cellulose was investigated at a high loading of 3.5 (VScellulose/VSinoculum) under nanobubble water (NBW) addition. A longer proton spin-spin relaxation time (2611-2906 ms) of NBW during 35 days' storage reflected its high mobility and diffusion of water molecules. Higher volatile fatty acids were yielded at the hydrolysis-acidification stage under NBW addition. Methanogenesis tests showed that Air-NBW and CO2-NBW supplementation accelerated the utilization of crystalline cellulose, achieving methane yields of 264 and 246 mL CH4/g-VSreduced, increasing by 18% and 10% compared to deionized water addition (the control), respectively. In addition, under NBW addition the cellulose crystallinity reduction was enhanced by 14-20% with microbial community being enriched with hydrolytic and methanogenic bacteria. Results from this work suggest that NBW environment with no chemical addition and relatively low energy consumption is advantageous for enhanced AD process of cellulosic biomass." @default.
W2989754845 created "2019-12-05" @default.
W2989754845 creator A5024842018 @default.
W2989754845 creator A5031845960 @default.
W2989754845 creator A5039363551 @default.
W2989754845 creator A5041448256 @default.
W2989754845 creator A5060739855 @default.
W2989754845 creator A5073284312 @default.
W2989754845 creator A5077128172 @default.
W2989754845 creator A5083885354 @default.
W2989754845 date "2020-02-01" @default.
W2989754845 modified "2023-10-12" @default.
W2989754845 title "Enhanced hydrolysis and acidification of cellulose at high loading for methane production via anaerobic digestion supplemented with high mobility nanobubble water" @default.
W2989754845 cites W1861219142 @default.
W2989754845 cites W1879125217 @default.
W2989754845 cites W1928947228 @default.
W2989754845 cites W1979754465 @default.
W2989754845 cites W1985335413 @default.
W2989754845 cites W1989387508 @default.
W2989754845 cites W1997295143 @default.
W2989754845 cites W2000036252 @default.
W2989754845 cites W2012889249 @default.
W2989754845 cites W2023555524 @default.
W2989754845 cites W2024397118 @default.
W2989754845 cites W2028403095 @default.
W2989754845 cites W2029910517 @default.
W2989754845 cites W2033173310 @default.
W2989754845 cites W2038595231 @default.
W2989754845 cites W2044479511 @default.
W2989754845 cites W2072686263 @default.
W2989754845 cites W2084470968 @default.
W2989754845 cites W2114220158 @default.
W2989754845 cites W2114250298 @default.
W2989754845 cites W2150287329 @default.
W2989754845 cites W2155944032 @default.
W2989754845 cites W2187250940 @default.
W2989754845 cites W2201882808 @default.
W2989754845 cites W2326629453 @default.
W2989754845 cites W2344505837 @default.
W2989754845 cites W2397885266 @default.
W2989754845 cites W2407073098 @default.
W2989754845 cites W2416840541 @default.
W2989754845 cites W2417811933 @default.
W2989754845 cites W2512166475 @default.
W2989754845 cites W2745625412 @default.
W2989754845 cites W2758171532 @default.
W2989754845 cites W2766607014 @default.
W2989754845 cites W2768137247 @default.
W2989754845 cites W2793384975 @default.
W2989754845 cites W2793865120 @default.
W2989754845 cites W2800014601 @default.
W2989754845 cites W2864874706 @default.
W2989754845 cites W2882738229 @default.
W2989754845 cites W2898525833 @default.
W2989754845 cites W2910071495 @default.
W2989754845 cites W2915039349 @default.
W2989754845 cites W2915057640 @default.
W2989754845 cites W2942014234 @default.
W2989754845 cites W2952117826 @default.
W2989754845 cites W2963967665 @default.
W2989754845 doi "https://doi.org/10.1016/j.biortech.2019.122499" @default.
W2989754845 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31835146" @default.
W2989754845 hasPublicationYear "2020" @default.
W2989754845 type Work @default.
W2989754845 sameAs 2989754845 @default.
W2989754845 citedByCount "35" @default.
W2989754845 countsByYear W29897548452020 @default.
W2989754845 countsByYear W29897548452021 @default.
W2989754845 countsByYear W29897548452022 @default.
W2989754845 countsByYear W29897548452023 @default.
W2989754845 crossrefType "journal-article" @default.
W2989754845 hasAuthorship W2989754845A5024842018 @default.
W2989754845 hasAuthorship W2989754845A5031845960 @default.
W2989754845 hasAuthorship W2989754845A5039363551 @default.
W2989754845 hasAuthorship W2989754845A5041448256 @default.
W2989754845 hasAuthorship W2989754845A5060739855 @default.
W2989754845 hasAuthorship W2989754845A5073284312 @default.
W2989754845 hasAuthorship W2989754845A5077128172 @default.
W2989754845 hasAuthorship W2989754845A5083885354 @default.
W2989754845 hasBestOaLocation W29897548452 @default.
W2989754845 hasConcept C115540264 @default.
W2989754845 hasConcept C127413603 @default.
W2989754845 hasConcept C163283067 @default.
W2989754845 hasConcept C178790620 @default.
W2989754845 hasConcept C185592680 @default.
W2989754845 hasConcept C18903297 @default.
W2989754845 hasConcept C2776073808 @default.
W2989754845 hasConcept C2778589620 @default.
W2989754845 hasConcept C2779251873 @default.
W2989754845 hasConcept C2779477270 @default.
W2989754845 hasConcept C2781052789 @default.
W2989754845 hasConcept C42360764 @default.
W2989754845 hasConcept C46275449 @default.
W2989754845 hasConcept C499616599 @default.
W2989754845 hasConcept C516920438 @default.
W2989754845 hasConcept C55493867 @default.
W2989754845 hasConcept C8010536 @default.
W2989754845 hasConcept C86803240 @default.