Co-processing of two greenhouse gases, methane and carbon dioxide, was carried out in a dielectric barrier plasma reactor. The influence of feed gas proportion on the performance of the plasma reactor was investigated, especially with an objective to increase the conversion of the reactants and selectivity to syngas. To understand the influence of the catalyst on dry reforming, 10-30% NiO/Al2O3 catalysts were prepared by a single-step combustion synthesis and various physicochemical techniques confirmed the formation of nanosized Ni particles. A total of 10% of the discharge volume was packed with Ni/Al2O3 catalysts in a packed-bed configuration. An interesting observation is the increased syngas selectivity on the addition of catalyst to p...
We present an innovative approach for reacting carbon dioxide and water to give syngas by combining ...
These days, the consideration of CO2 as a feedstock has become the subject of more interest. The reu...
The objective of the present study is the direct conversion of potential greenhouse gases methane (C...
Co-processing of two greenhouse gases, methane and carbon dioxide, was carried out in a dielectric b...
Dry reforming of methane (DRM) to syngas in a dielectric barrier discharge (DBD) plasma reactor over...
Dry reforming of methane is conducted in a catalyst packed-bed dielectric barrier discharge (DBD) re...
Plasma-catalytic hydrogenation of CO and CO2 for producing methane was investigated with a catalyst-...
Greenhouse gases (methane and carbon dioxide) conversion, H2 and CO selectivity, H2/CO ratio and car...
Dry reforming of CH4 (DRM) using a plasma-enabled catalytic process is an appealing approach for red...
The potential for a DBD plasma reactor for methane dry reforming was studied. The plasma dry reformi...
Plasma-enhanced catalytic biogas reforming for hydrogen-rich syngas production over a Ni–K/Al2O3 cat...
Among the possibilities for syngas production, CO2 reforming of methane is very attractive (CH4 + CO...
Nonthermal plasma created in a catalyst-packed bed reactor was applied to the conversion of carbon o...
We present an innovative approach for reacting carbon dioxide and water to give syngas by combining ...
Simultaneous activation of CO2 and H2O was carried out in a non thermal plasma dielectric barrier di...
We present an innovative approach for reacting carbon dioxide and water to give syngas by combining ...
These days, the consideration of CO2 as a feedstock has become the subject of more interest. The reu...
The objective of the present study is the direct conversion of potential greenhouse gases methane (C...
Co-processing of two greenhouse gases, methane and carbon dioxide, was carried out in a dielectric b...
Dry reforming of methane (DRM) to syngas in a dielectric barrier discharge (DBD) plasma reactor over...
Dry reforming of methane is conducted in a catalyst packed-bed dielectric barrier discharge (DBD) re...
Plasma-catalytic hydrogenation of CO and CO2 for producing methane was investigated with a catalyst-...
Greenhouse gases (methane and carbon dioxide) conversion, H2 and CO selectivity, H2/CO ratio and car...
Dry reforming of CH4 (DRM) using a plasma-enabled catalytic process is an appealing approach for red...
The potential for a DBD plasma reactor for methane dry reforming was studied. The plasma dry reformi...
Plasma-enhanced catalytic biogas reforming for hydrogen-rich syngas production over a Ni–K/Al2O3 cat...
Among the possibilities for syngas production, CO2 reforming of methane is very attractive (CH4 + CO...
Nonthermal plasma created in a catalyst-packed bed reactor was applied to the conversion of carbon o...
We present an innovative approach for reacting carbon dioxide and water to give syngas by combining ...
Simultaneous activation of CO2 and H2O was carried out in a non thermal plasma dielectric barrier di...
We present an innovative approach for reacting carbon dioxide and water to give syngas by combining ...
These days, the consideration of CO2 as a feedstock has become the subject of more interest. The reu...
The objective of the present study is the direct conversion of potential greenhouse gases methane (C...