SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2898731496> ?p ?o ?g. }

Showing items 1 to 100 of ±216 with 100 items per page.

W2898731496 endingPage "17380" @default.
W2898731496 startingPage "17363" @default.
W2898731496 abstract "Abstract Hydrogen (H2) and methane (CH4) are the potential alternative energy carriers with autonomous extensive and viable importance. These fuels could complement the advantages, and discard the disadvantages of each other, if produced simultaneously. Considering their complementary properties, co-production of a mixture of H2 and CH4 in the form of biohythane in two-stage anaerobic digestion (AD) process is gaining more interest than their individual production. Biohythane is a better transportation fuel than compressed natural gas (CNG) in terms of high range of flammability, reduced ignition temperature as well as time, without nitrous oxide (NOx) emissions, improved engine performance without specific modification, etc. Other than production of biohythane, performing two-stage AD is advantageous over one-stage AD due to short HRT, high energy recovery, high COD removal, higher H2 and CH4 yields, and reduced carbon dioxide (CO2) in biogas. For improved biohythane production, various aspects of two-stage AD need to be emphasized. Keeping the facts in mind, the process of two-stage AD along with microbial diversity in comparison to one-stage AD has been discussed in the previous sections of this review. For large scale commercial production, and utilization of biohythane in automobile sector, its execution needs evaluation of process parameters, and problems associated with two-stage AD. Hence, the later part of this review describes the production process of biohythane, concerned microbial diversity, operational process parameters, major challenges and their solutions, applications, and economic evaluation for enhanced production of biohythane." @default.
W2898731496 created "2018-11-09" @default.
W2898731496 creator A5060677356 @default.
W2898731496 creator A5077149359 @default.
W2898731496 date "2019-06-01" @default.
W2898731496 modified "2023-09-30" @default.
W2898731496 title "Biohythane production in two-stage anaerobic digestion system" @default.
W2898731496 cites W1061972150 @default.
W2898731496 cites W1122866445 @default.
W2898731496 cites W1482308130 @default.
W2898731496 cites W1801711486 @default.
W2898731496 cites W1858316409 @default.
W2898731496 cites W1860716825 @default.
W2898731496 cites W1964377823 @default.
W2898731496 cites W1966062563 @default.
W2898731496 cites W1966199774 @default.
W2898731496 cites W1967222710 @default.
W2898731496 cites W1970410790 @default.
W2898731496 cites W1971603290 @default.
W2898731496 cites W1971975097 @default.
W2898731496 cites W1974607552 @default.
W2898731496 cites W1975295869 @default.
W2898731496 cites W1975300274 @default.
W2898731496 cites W1977666659 @default.
W2898731496 cites W1977994396 @default.
W2898731496 cites W1979731904 @default.
W2898731496 cites W1981824084 @default.
W2898731496 cites W1984124467 @default.
W2898731496 cites W1984704569 @default.
W2898731496 cites W1984738244 @default.
W2898731496 cites W1985555044 @default.
W2898731496 cites W1988908295 @default.
W2898731496 cites W1990882067 @default.
W2898731496 cites W1991639294 @default.
W2898731496 cites W1993009282 @default.
W2898731496 cites W1994785602 @default.
W2898731496 cites W1995738934 @default.
W2898731496 cites W1996308852 @default.
W2898731496 cites W1997163284 @default.
W2898731496 cites W1998618324 @default.
W2898731496 cites W1998765422 @default.
W2898731496 cites W1999607392 @default.
W2898731496 cites W2001174595 @default.
W2898731496 cites W2001494743 @default.
W2898731496 cites W2003707034 @default.
W2898731496 cites W2003888475 @default.
W2898731496 cites W2006734001 @default.
W2898731496 cites W2011840342 @default.
W2898731496 cites W2012136380 @default.
W2898731496 cites W2012473161 @default.
W2898731496 cites W2014524936 @default.
W2898731496 cites W2014619142 @default.
W2898731496 cites W2016322126 @default.
W2898731496 cites W2017632640 @default.
W2898731496 cites W2021235629 @default.
W2898731496 cites W2022164057 @default.
W2898731496 cites W2023688218 @default.
W2898731496 cites W2025670481 @default.
W2898731496 cites W2027827948 @default.
W2898731496 cites W2028149625 @default.
W2898731496 cites W2029661378 @default.
W2898731496 cites W2032181392 @default.
W2898731496 cites W2032770989 @default.
W2898731496 cites W2033362860 @default.
W2898731496 cites W2036081711 @default.
W2898731496 cites W2036349134 @default.
W2898731496 cites W2036432441 @default.
W2898731496 cites W2044626716 @default.
W2898731496 cites W2045845086 @default.
W2898731496 cites W2048991557 @default.
W2898731496 cites W2051765537 @default.
W2898731496 cites W2052285688 @default.
W2898731496 cites W2052553703 @default.
W2898731496 cites W2053871965 @default.
W2898731496 cites W2055121518 @default.
W2898731496 cites W2058728036 @default.
W2898731496 cites W2061296268 @default.
W2898731496 cites W2063686048 @default.
W2898731496 cites W2064165487 @default.
W2898731496 cites W2065436225 @default.
W2898731496 cites W2066427284 @default.
W2898731496 cites W2069735578 @default.
W2898731496 cites W2071236148 @default.
W2898731496 cites W2073625293 @default.
W2898731496 cites W2076172620 @default.
W2898731496 cites W2077312863 @default.
W2898731496 cites W2077426839 @default.
W2898731496 cites W2078388340 @default.
W2898731496 cites W2081333267 @default.
W2898731496 cites W2081660361 @default.
W2898731496 cites W2083778163 @default.
W2898731496 cites W2084629871 @default.
W2898731496 cites W2085341894 @default.
W2898731496 cites W2086339654 @default.
W2898731496 cites W2088420197 @default.
W2898731496 cites W2091049009 @default.
W2898731496 cites W2094581207 @default.
W2898731496 cites W2115667718 @default.