SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2902839623> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W2902839623 endingPage "295" @default.
W2902839623 startingPage "287" @default.
W2902839623 abstract "Coalbed methane (CBM) resources formed biogenically and thermogenically have been discovered in the Permian coalbeds of the Huaibei coalfield. Four coals, three mudstones, and five coalbed-produced water samples collected from the Linhuan, Luling, and Haizi coal mines of the Huaibei coalfield were characterized geochemically and biologically to gain an understanding of the biogenic methane generation potential and the microbial communities involved in situ and in coalbed-produced water-enriched samples. The 16S rRNA gene high-throughput sequencing results showed that the archaeal communities from in situ and enriched cultures were dominated by Methanolobus and Methanobacterium species. The organic material of coals and mudstones could be biodegraded under an anaerobic incubation. The maximum biogenic methane generation potentials of coal and mudstones were 98.5 and 72.5 μmol/g within 123 days, respectively. Volatile matter and total organic carbon (TOC) content were the most important internal factors affecting biogenic methane generation from coals and mudstones. The Na-SO4 water type resulted in a low methane generation potential." @default.
W2902839623 created "2018-12-11" @default.
W2902839623 creator A5037023585 @default.
W2902839623 creator A5061157599 @default.
W2902839623 creator A5067022585 @default.
W2902839623 creator A5069291603 @default.
W2902839623 creator A5070843165 @default.
W2902839623 date "2018-12-04" @default.
W2902839623 modified "2023-10-16" @default.
W2902839623 title "Potential and Constraints of Biogenic Methane Generation from Coals and Mudstones from Huaibei Coalfield, Eastern China" @default.
W2902839623 cites W1685189429 @default.
W2902839623 cites W1964137898 @default.
W2902839623 cites W1971072534 @default.
W2902839623 cites W1971381271 @default.
W2902839623 cites W1974008131 @default.
W2902839623 cites W1979261842 @default.
W2902839623 cites W1994068641 @default.
W2902839623 cites W1997333485 @default.
W2902839623 cites W1999872625 @default.
W2902839623 cites W2000903497 @default.
W2902839623 cites W2002075454 @default.
W2902839623 cites W2004378785 @default.
W2902839623 cites W2009252953 @default.
W2902839623 cites W2014542282 @default.
W2902839623 cites W2014757297 @default.
W2902839623 cites W2021620870 @default.
W2902839623 cites W2026845280 @default.
W2902839623 cites W2028225849 @default.
W2902839623 cites W2029038961 @default.
W2902839623 cites W2029884589 @default.
W2902839623 cites W2031859884 @default.
W2902839623 cites W2032854853 @default.
W2902839623 cites W2040696721 @default.
W2902839623 cites W2046803106 @default.
W2902839623 cites W2053136146 @default.
W2902839623 cites W2053414139 @default.
W2902839623 cites W2055912842 @default.
W2902839623 cites W2056744440 @default.
W2902839623 cites W2063439088 @default.
W2902839623 cites W2064938889 @default.
W2902839623 cites W2075268925 @default.
W2902839623 cites W2075833095 @default.
W2902839623 cites W2077693552 @default.
W2902839623 cites W2078427984 @default.
W2902839623 cites W2093355947 @default.
W2902839623 cites W2094591409 @default.
W2902839623 cites W2110235469 @default.
W2902839623 cites W2116074457 @default.
W2902839623 cites W2116110434 @default.
W2902839623 cites W2123591318 @default.
W2902839623 cites W2128378273 @default.
W2902839623 cites W2130978061 @default.
W2902839623 cites W2131499768 @default.
W2902839623 cites W2135740024 @default.
W2902839623 cites W2142245778 @default.
W2902839623 cites W2144839237 @default.
W2902839623 cites W2151207320 @default.
W2902839623 cites W2152178805 @default.
W2902839623 cites W2154401636 @default.
W2902839623 cites W2162729846 @default.
W2902839623 cites W2167944543 @default.
W2902839623 cites W2170987478 @default.
W2902839623 cites W2182499733 @default.
W2902839623 cites W2199336140 @default.
W2902839623 cites W2200948493 @default.
W2902839623 cites W2257874561 @default.
W2902839623 cites W2314786496 @default.
W2902839623 cites W2324507377 @default.
W2902839623 cites W2334809121 @default.
W2902839623 cites W2335169216 @default.
W2902839623 cites W2394750369 @default.
W2902839623 cites W2501547118 @default.
W2902839623 cites W2512987434 @default.
W2902839623 cites W2515458116 @default.
W2902839623 cites W2515992426 @default.
W2902839623 cites W2530858226 @default.
W2902839623 cites W2531586681 @default.
W2902839623 cites W2585982365 @default.
W2902839623 cites W2617301221 @default.
W2902839623 cites W2623044353 @default.
W2902839623 cites W2753971798 @default.
W2902839623 cites W2776780900 @default.
W2902839623 cites W2789669622 @default.
W2902839623 cites W2794870114 @default.
W2902839623 cites W2886645705 @default.
W2902839623 cites W2890976502 @default.
W2902839623 doi "https://doi.org/10.1021/acs.energyfuels.8b02782" @default.
W2902839623 hasPublicationYear "2018" @default.
W2902839623 type Work @default.
W2902839623 sameAs 2902839623 @default.
W2902839623 citedByCount "17" @default.
W2902839623 countsByYear W29028396232019 @default.
W2902839623 countsByYear W29028396232020 @default.
W2902839623 countsByYear W29028396232021 @default.
W2902839623 countsByYear W29028396232022 @default.
W2902839623 countsByYear W29028396232023 @default.
W2902839623 crossrefType "journal-article" @default.
W2902839623 hasAuthorship W2902839623A5037023585 @default.