Greenhouse gas CO₂ hydrogenation to fuels: A thermodynamic analysis

Abstract: Over the past few years, chemical conversion of CO2 to alternative fuels such as methanol, dimethyl ether (DME), and hydrocarbons (HCs) is one of the hot topics in chemical engineering. Taking this into consideration, we have investigated the effects of wide range of temperature, pressure and H2/CO2 ratio (with and without CO) on the hydrogenation of CO2 to methanol, DME, and HCs by minimizing the Gibbs free energy. The energy calculations indicate that HC synthesis reaction has the minimum Gibbs free energy c… Show more

“…Kinetic modelling of this process (Aguayo et al, 2007;Qin et al, 2015) concluded, that the rate-determining step in DME synthesis was the methanol synthesis. Use of a Gibbs free energy minimisation approach verified this and supported Le Chatelier's principle, concluding that CO 2 conversion and DME selectivity also increases with increasing total pressure (Ahmad and Upadhyayula, 2018). Although CO 2 conversion increases with temperature above 350°C, this signifies the move from equilibrium to kinetics controlling state of reaction completion.…”

Synthetic Fuels Based on Dimethyl Ether as a Future Non-Fossil Fuel for Road Transport From Sustainable Feedstocks

“…Kinetic modelling of this process (Aguayo et al, 2007;Qin et al, 2015) concluded, that the rate-determining step in DME synthesis was the methanol synthesis. Use of a Gibbs free energy minimisation approach verified this and supported Le Chatelier's principle, concluding that CO 2 conversion and DME selectivity also increases with increasing total pressure (Ahmad and Upadhyayula, 2018). Although CO 2 conversion increases with temperature above 350°C, this signifies the move from equilibrium to kinetics controlling state of reaction completion.…”

Synthetic Fuels Based on Dimethyl Ether as a Future Non-Fossil Fuel for Road Transport From Sustainable Feedstocks

“…It was found that the consumption of H 2 and CO 2 and the formation of CO increases with the increase in temperature at atmospheric pressure, whereas selectivity toward methanol follows the opposite trend. This is due to the exothermic and endothermic properties of methanol synthesis (reaction ) and RWGS reaction (reaction ), respectively . From Fig.…”

“…The effect of pressure on CO 2 conversion and product selectivity was studied in the same reaction media at a temperature of 250°C with H 2 and CO 2 in their stoichiometric ration (H 2 /CO 2 = 3/1). The methanol synthesis from CO 2 hydrogenation reaction is sensitive to pressure . As shown in Fig.…”

Influence of reduction temperature on the formation of intermetallic Pd₂Ga phase and its catalytic activity in CO₂ hydrogenation to methanol

“…1 While burning them provides a significant amount of energy, it is known to be the main source of releasing carbon dioxide into the atmosphere, a greenhouse gas blamed to trigger global warming. 2,3 Despite burning fossil fuels, there are other approaches to generate electricity in an environmentally benign way; hydro energy, wind turbines, geothermal, and solar energy. [4][5][6] Among the noted methods, solar energy has been highlighted by providing an inexhaustible, nonpolluting, and safe source of energy.…”

“…All over the world, electrical energy is still being generated via environmental destructive techniques, consisting mainly from direct burning of conventional fossil fuel resources that are nonrenewable carbon‐based materials resulted from anaerobic decomposition of buried ancient organisms 1 . While burning them provides a significant amount of energy, it is known to be the main source of releasing carbon dioxide into the atmosphere, a greenhouse gas blamed to trigger global warming 2,3 …”

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