2006
DOI: 10.1016/j.cep.2005.10.006
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The influence of temperature on adsorption capacity of Malaysian coal

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Cited by 36 publications
(18 citation statements)
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“…They have applied different approaches to describe how sorption capacity, sorption rate, gas diffusion, and permeability are affected. Several groups reported that the sorption of gas on coals at a given pressure increases with decreasing temperature (Azmi et al 2006;Menon 1968;White et al 2005;Zhou et al 2001), but the temperature effect on the maximum sorption capacity was controversial (Sakurovs et al 2010), nor was the temperature effect quantified. Major challenges for ECBM lie in the fact that the density of the adsorbed phase within varying pores is unknown and fundamental understanding of the sorption mechanism is insufficient.…”
Section: Introductionmentioning
confidence: 99%
“…They have applied different approaches to describe how sorption capacity, sorption rate, gas diffusion, and permeability are affected. Several groups reported that the sorption of gas on coals at a given pressure increases with decreasing temperature (Azmi et al 2006;Menon 1968;White et al 2005;Zhou et al 2001), but the temperature effect on the maximum sorption capacity was controversial (Sakurovs et al 2010), nor was the temperature effect quantified. Major challenges for ECBM lie in the fact that the density of the adsorbed phase within varying pores is unknown and fundamental understanding of the sorption mechanism is insufficient.…”
Section: Introductionmentioning
confidence: 99%
“…Many methods such as hydraulic fracturing, high-pressure water jet and blasting vibration (Shen et al, 2012;Li et al, 2009;Shimizu et al, 2011;Li and Xing 2015), have been tested and applied to achieve these goals. The desorption rate and permeability of CSG can also be significantly increased by physical stimulation through changing the thermal field, stress field, electrical and magnetic field (Pan et al, 2012;Azmi et al, 2006;Hol et al, 2011;Charriére et al,2010;Liu et al, 2006) and their coupling effects. Acoustic wave field stimulation method is relatively new and successfully applied in oil recovery and ultrasonic assisted desorption for removal of aromatic pollutants (Ye et al, 2008;Mohammadian et al, 2013;Alhomadhi et al, …”
Section: Introductionmentioning
confidence: 99%
“…The desorption rate and permeability of CSG can also be significantly increased by physical stimulation through changing the thermal field (Azmi et al, 2006;Charrié re and Pokryszka, 2010;Pan et al, 2012), stress field (Hol et al, 2011), electrical and magnetic field (Liu et al, 2006) and their coupling effects. Acoustic wave stimulation method is relatively new and successfully applied in oil recovery and ultrasonic assisted desorption for removal of aromatic pollutants (Ye et al, 2008;Naderi and Babadagli, 2010;Alhomadhi et al, 2014;Mohammadian et al, 2013).…”
Section: Backgroundsmentioning
confidence: 99%
“…Many methods such as hydraulic fracturing (Li and Xing, 2015), hydraulic slotting (Shen et al, 2012) and blasting vibration (Li et al, 2009), have been tested and applied to achieve these goals. The desorption rate and permeability of CSG can also be significantly increased by physical stimulation through changing the thermal field (Azmi et al,2006), stress field (Hol et al, 2011), electrical and magnetic field (Liu et al, 2006) and their coupling effects. Acoustic wave field stimulation method is relatively new and successfully applied in oil recovery and ultrasonic assisted desorption for removal of aromatic pollutants (Ye et al, 2008;Nader and Babadagli, 2010;Mohammadian et al, 2013;Alhomadhi et al, 2014).…”
Section: Overviewmentioning
confidence: 99%
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