Add to ORKGConsuming two major greenhouse gases, carbon dioxide (CO2) and methane (CH4), to produce synthesis gas, which is a mixture of carbon monoxide (CO) and hydrogen (H2), CO2 reforming of CH4 shows significant environmental and economic benefits. However, the process has not found wide industrial application due to severe catalyst deactivation, basically caused by carbon formation. Therefore, it is of great interest to develop stable catalysts without severe deactivation. This work is primarily focused on the development of novel nickel-based catalysts to achieve stable operation for CO2 reforming of CH4. Following Dowden’s strategy of catalyst design, a series of nickel-based catalysts are designed with a general formula: Ni-Me/AlMgOx (Me = C...
Carbon dioxide and/or dry methane reforming serves as an effective pathway to mitigate these greenho...
We report bi-reforming and coupled reforming of methane with carbon dioxide, steam and/or oxygen to ...
Supported Ni catalyst, one of most important heterogeneous catalysts, is widely used for dehydrogena...
Consuming two major greenhouse gases, carbon dioxide (CO2) and methane (CH4), to produce synthesis g...
Carbon dioxide reforming of methane produces synthesis gas with a low hydrogen to carbon monoxide ra...
Ni-Co/AlMgOx bimetallic, Ni/AlMgOx and Co/AlMgOx monometallic catalysts were prepared with various N...
Carbon dioxide reforming, or drying reforming, of methane can now be used in new applications such a...
This project has a main objective namely the development of nickel, Ni-based catalyst for the synthe...
This research work was conducted in three main phases. In the first phase, Ni and Co monometallic an...
Catalytic reforming of CH4 with CO2 has recently attracted considerable attention due to simultaneou...
Recently, with the rapid development of human society, meeting energy demand and controlling climate...
Global warming issue becomes more significant to human beings and other organisms on the earth. Amon...
CO2 reforming of methane is attractive, because it can convert two greenhouse gases into synthesis g...
Previous work from our group has established Ni-Co-Mg-Al-Ox catalyst to be an active and stable cata...
Methanation has gaining extensive interest in the recent years due to the increase in the prices of ...
Carbon dioxide and/or dry methane reforming serves as an effective pathway to mitigate these greenho...
We report bi-reforming and coupled reforming of methane with carbon dioxide, steam and/or oxygen to ...
Supported Ni catalyst, one of most important heterogeneous catalysts, is widely used for dehydrogena...
Consuming two major greenhouse gases, carbon dioxide (CO2) and methane (CH4), to produce synthesis g...
Carbon dioxide reforming of methane produces synthesis gas with a low hydrogen to carbon monoxide ra...
Ni-Co/AlMgOx bimetallic, Ni/AlMgOx and Co/AlMgOx monometallic catalysts were prepared with various N...
Carbon dioxide reforming, or drying reforming, of methane can now be used in new applications such a...
This project has a main objective namely the development of nickel, Ni-based catalyst for the synthe...
This research work was conducted in three main phases. In the first phase, Ni and Co monometallic an...
Catalytic reforming of CH4 with CO2 has recently attracted considerable attention due to simultaneou...
Recently, with the rapid development of human society, meeting energy demand and controlling climate...
Global warming issue becomes more significant to human beings and other organisms on the earth. Amon...
CO2 reforming of methane is attractive, because it can convert two greenhouse gases into synthesis g...
Previous work from our group has established Ni-Co-Mg-Al-Ox catalyst to be an active and stable cata...
Methanation has gaining extensive interest in the recent years due to the increase in the prices of ...
Carbon dioxide and/or dry methane reforming serves as an effective pathway to mitigate these greenho...
We report bi-reforming and coupled reforming of methane with carbon dioxide, steam and/or oxygen to ...
Supported Ni catalyst, one of most important heterogeneous catalysts, is widely used for dehydrogena...