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W3047775110 endingPage "10824" @default.
W3047775110 startingPage "10810" @default.
W3047775110 abstract "Moisture significantly affects the adsorption capability of gas shales for methane (CH4), the main component of shale gas. Primary moisture, i.e., the moisture that exists in in situ shale reservoirs, is therefore crucial to estimate and produce shale gas resource. Aiming to understand the influences of primary moisture on CH4 adsorption on shale samples, the occurrence of primary moisture in shales gathered from the Lower Silurian Longmaxi Formation located in southern Sichuan Basin of China was experimentally investigated. Additionally, the primary moisture dependence of CH4 adsorption equilibrium and thermodynamics of shales was investigated. Results indicate that the primary moisture contents of the four shale samples vary between 0.64 and 0.82% (mass percentage), positively correlated with the clay mineral content of shale samples. The adsorption equilibrium behavior regarding water vapor on shales well follows the modified Brunauer–Emmett–Teller (BET) equation. The water vapor is typically adsorbed onto the primary adsorption sites of shale samples, i.e., the oxygenic functional groups consisting of COOH, conjugated C═O, and highly conjugated C═O, and the secondary adsorption sites, i.e., the previously adsorbed water molecules and clay minerals. The pores with pore diameter less than 4 nm of shales are the main accommodation space for primary moisture. The adsorption equilibrium of CH4 on primary moisture-containing shales well obeys the Ono–Kondo lattice equation. On the basis of the modeling results, the primary moisture causes a remarkable reduction in maximum CH4 adsorption capacity of shale samples by 12.86–45.45%. Moreover, the primary moisture reduces the isosteric heat of CH4 adsorption on shale samples. In summary, the primary moisture in gas shales decreases the adsorption affinity between CH4 and shale samples. Therefore, focusing on the effects of primary moisture on CH4 adsorption on shales is vital to better estimate and produce shale gas resource." @default.
W3047775110 created "2020-08-13" @default.
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W3047775110 date "2020-08-07" @default.
W3047775110 modified "2023-10-15" @default.
W3047775110 title "Influences of Primary Moisture on Methane Adsorption within Lower Silurian Longmaxi Shales in the Sichuan Basin, China" @default.
W3047775110 cites W1965852402 @default.
W3047775110 cites W1978329962 @default.
W3047775110 cites W1980439755 @default.
W3047775110 cites W1980704616 @default.
W3047775110 cites W1990662222 @default.
W3047775110 cites W1993159497 @default.
W3047775110 cites W1994014339 @default.
W3047775110 cites W2001507057 @default.
W3047775110 cites W2008973329 @default.
W3047775110 cites W2010018010 @default.
W3047775110 cites W2011254969 @default.
W3047775110 cites W2012868732 @default.
W3047775110 cites W2020820717 @default.
W3047775110 cites W2024499367 @default.
W3047775110 cites W2026831319 @default.
W3047775110 cites W2029759118 @default.
W3047775110 cites W2045073718 @default.
W3047775110 cites W2047175491 @default.
W3047775110 cites W2049457092 @default.
W3047775110 cites W2051639559 @default.
W3047775110 cites W2057374802 @default.
W3047775110 cites W2061041760 @default.
W3047775110 cites W2066965928 @default.
W3047775110 cites W2067655208 @default.
W3047775110 cites W2078492239 @default.
W3047775110 cites W2086679780 @default.
W3047775110 cites W2087223629 @default.
W3047775110 cites W2134744054 @default.
W3047775110 cites W2151928100 @default.
W3047775110 cites W2155979846 @default.
W3047775110 cites W2190130430 @default.
W3047775110 cites W2218460186 @default.
W3047775110 cites W2279602387 @default.
W3047775110 cites W2289006447 @default.
W3047775110 cites W2312199777 @default.
W3047775110 cites W2328496138 @default.
W3047775110 cites W2331212077 @default.
W3047775110 cites W2331241506 @default.
W3047775110 cites W2346804485 @default.
W3047775110 cites W2488960176 @default.
W3047775110 cites W2493129146 @default.
W3047775110 cites W2510967660 @default.
W3047775110 cites W2518663327 @default.
W3047775110 cites W2559071928 @default.
W3047775110 cites W2561053769 @default.
W3047775110 cites W2567544120 @default.
W3047775110 cites W2579881657 @default.
W3047775110 cites W2582959074 @default.
W3047775110 cites W2615148320 @default.
W3047775110 cites W2760037663 @default.
W3047775110 cites W2766245298 @default.
W3047775110 cites W2803184846 @default.
W3047775110 cites W2899029993 @default.
W3047775110 cites W2900135551 @default.
W3047775110 cites W2905486955 @default.
W3047775110 cites W2909846395 @default.
W3047775110 cites W2915293809 @default.
W3047775110 cites W2921104390 @default.
W3047775110 cites W2938653438 @default.
W3047775110 cites W2947386471 @default.
W3047775110 cites W2951519589 @default.
W3047775110 cites W2963631527 @default.
W3047775110 cites W2968085429 @default.
W3047775110 cites W2975961041 @default.
W3047775110 cites W2989855847 @default.
W3047775110 cites W3004774238 @default.
W3047775110 cites W3029775079 @default.
W3047775110 cites W3033750970 @default.
W3047775110 cites W352370916 @default.
W3047775110 cites W4299130266 @default.
W3047775110 cites W807120480 @default.
W3047775110 cites W816904156 @default.
W3047775110 doi "https://doi.org/10.1021/acs.energyfuels.0c01932" @default.
W3047775110 hasPublicationYear "2020" @default.
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