Gibbs free energy minimization as a way to optimize the combined steam and carbon dioxide reforming of methane

“…(19). It is evidence from statistical results of Table 2 that inlet ðH 2 O=CH 4 Þ is negligible variable, and it has completely the agreement with Fig.…”

“…Production of syngas from different of both nonrenewable and renewable sources such as methane [1,[18][19][20], coal, glycerol [21,22], methanol and biogas [23] is being widely researched.…”

“…Some previous works have been presented the application of Gibbs free energy minimization method for various fuels, such as methane [10,11,19,20,24], propane [26], glycerol [21].…”

Thermodynamic analysis of steam reforming of methane with statistical approaches

“…(19). It is evidence from statistical results of Table 2 that inlet ðH 2 O=CH 4 Þ is negligible variable, and it has completely the agreement with Fig.…”

“…Production of syngas from different of both nonrenewable and renewable sources such as methane [1,[18][19][20], coal, glycerol [21,22], methanol and biogas [23] is being widely researched.…”

“…Some previous works have been presented the application of Gibbs free energy minimization method for various fuels, such as methane [10,11,19,20,24], propane [26], glycerol [21].…”

Thermodynamic analysis of steam reforming of methane with statistical approaches

“…Thermodynamic simulation was carried out with the minimum Gibbs energy method [32]. A representative ratio of H/C was set at 6.0, with the equilibrium temperature varying from 500 to 4500 K.…”

Hydropyrolysis of n-Hexane and Toluene to Acetylene in Rotating-Arc Plasma

“…Sun et al [11] conducted the thermodynamic analysis on the mixed and dry reforming of methane for solar thermal applications. Demidov et al [12] used Gibbs free energy minimization to optimize the combined steam and carbon dioxide reforming of methane. When the energy storage process of methane reforming was heated under high concentrated solar energy, enhanced heat transfer method should be used to reduce the highest temperature.…”

High temperature energy storage performances of methane reforming with carbon dioxide in a tubular packed reactor