Add to ORKGSynthesis of methanol using pulsed discharge plasma process is gaining significance. We report the production of methanol from methane and CO2/H2O, using pulsed discharge. Experiments were conducted at very low temperature (-192°C) in addition to normal room temperature. Two types of plasma reactors, cylindrical and rectangular, were tested for methanol production with different corona electrodes (straight wire, helical wire and barbed plate). Gas analysis was carried out by GC-MS and the yield of methanol at various operating conditions was compared and discussed. Experiments were carefully conducted laboratory environmen
CO2 methanation has been observed by application of pulsed corona discharges in a CO2 atmosphere ove...
CO2 hydrogenation to methanol is a promising process for CO2 conversion and utilization. Despite a w...
Pulsed corona-induced partial oxidation of methane in humid oxygen or carbon dioxide atmospheres has...
Direct methanol synthesis from CH4 and O2 has been experimentally studied using pulsed discharge pla...
Direct methanol synthesis from $CH_4$ and $O_2$ has been experimentally studied using pulsed dischar...
Direct conversion of methane to methanol by partial oxidation in a thermal reactor has a poor yield ...
Present study reports the application of non-thermal plasma approach for the partial oxidation of me...
Nanosecond pulsed plasmas at ambient conditions can be tailored to energize chemical processes that ...
Non-equilibrium plasma was generated in a dielectric barrier discharge for conversion of methane to ...
Direct synthesis of methanol from methane and water vapor mixtures has a high possibility to realize...
By the application of pulsed corona discharges in a carbon dioxide atmosphere over a water film, the...
Methane gas is known to be the most destructive greenhouse gas. The current world reserves of natura...
Application of non-thermal plasma for gas cleaning is gaining prominence in the recent years. Normal...
Application of non-thermal plasma for gas cleaning is gaining prominence in the recent years. Normal...
The increasing demand for hydrogen gas production is currently met with fossil fuel gasification and...
CO2 methanation has been observed by application of pulsed corona discharges in a CO2 atmosphere ove...
CO2 hydrogenation to methanol is a promising process for CO2 conversion and utilization. Despite a w...
Pulsed corona-induced partial oxidation of methane in humid oxygen or carbon dioxide atmospheres has...
Direct methanol synthesis from CH4 and O2 has been experimentally studied using pulsed discharge pla...
Direct methanol synthesis from $CH_4$ and $O_2$ has been experimentally studied using pulsed dischar...
Direct conversion of methane to methanol by partial oxidation in a thermal reactor has a poor yield ...
Present study reports the application of non-thermal plasma approach for the partial oxidation of me...
Nanosecond pulsed plasmas at ambient conditions can be tailored to energize chemical processes that ...
Non-equilibrium plasma was generated in a dielectric barrier discharge for conversion of methane to ...
Direct synthesis of methanol from methane and water vapor mixtures has a high possibility to realize...
By the application of pulsed corona discharges in a carbon dioxide atmosphere over a water film, the...
Methane gas is known to be the most destructive greenhouse gas. The current world reserves of natura...
Application of non-thermal plasma for gas cleaning is gaining prominence in the recent years. Normal...
Application of non-thermal plasma for gas cleaning is gaining prominence in the recent years. Normal...
The increasing demand for hydrogen gas production is currently met with fossil fuel gasification and...
CO2 methanation has been observed by application of pulsed corona discharges in a CO2 atmosphere ove...
CO2 hydrogenation to methanol is a promising process for CO2 conversion and utilization. Despite a w...
Pulsed corona-induced partial oxidation of methane in humid oxygen or carbon dioxide atmospheres has...