Add to ORKGMicrowave-induced plasma (MIP) is an innovative technology with potential application for waste treatment and clean energy generation. The study presents the investigation of an MIP torch operated with carbon dioxide and steam. Optical spectroscopy measurements demonstrate the dissociation of CO2 and H2O molecules. This work shows that the MIP torch can generate a high temperature environment with very active chemical species, making it a promising technology for waste and biomass gasification
It is urgent to reduce CO2 emissions to mitigate the impacts of climate change. The development of a...
It is a well-understood phenomenon that the use of diminishing fossil fuels is causing disturbances ...
A suite of diagnostics is proposed to characterize microwave plasma dissociation of CO2: laser scatt...
Microwave-induced plasma (MIP) is an innovative technology with potential application for waste trea...
Pollution reduction from waste management and energy generation is necessary to mitigate climate cha...
Pollution reduction from waste management and energy generation is necessary to mitigate climate cha...
In the context of novel alternative energy technologies, plasma processing systems are investigated....
It is urgent to develop sustainable solutions enabling the reduction of greenhouse gases emissions i...
In the context of novel alternative energy technologies, plasma processing systems are investigated....
The global energy challenges along with global warming are regarded as the most important issues fac...
The global energy challenges along with global warming are regarded as the most important issues fac...
This thesis provides a solution for sustainable energy production. It applies the newest technologie...
Plasma gasification of biomass is emerging as an efficient way to reduce the carbon foot print of wa...
High temperature thermal plasma has a major drawback which consumes high energy. Therefore, non-ther...
The conversion of carbon dioxide has been studied using a microwave plasma. A plasma is a highly ene...
It is urgent to reduce CO2 emissions to mitigate the impacts of climate change. The development of a...
It is a well-understood phenomenon that the use of diminishing fossil fuels is causing disturbances ...
A suite of diagnostics is proposed to characterize microwave plasma dissociation of CO2: laser scatt...
Microwave-induced plasma (MIP) is an innovative technology with potential application for waste trea...
Pollution reduction from waste management and energy generation is necessary to mitigate climate cha...
Pollution reduction from waste management and energy generation is necessary to mitigate climate cha...
In the context of novel alternative energy technologies, plasma processing systems are investigated....
It is urgent to develop sustainable solutions enabling the reduction of greenhouse gases emissions i...
In the context of novel alternative energy technologies, plasma processing systems are investigated....
The global energy challenges along with global warming are regarded as the most important issues fac...
The global energy challenges along with global warming are regarded as the most important issues fac...
This thesis provides a solution for sustainable energy production. It applies the newest technologie...
Plasma gasification of biomass is emerging as an efficient way to reduce the carbon foot print of wa...
High temperature thermal plasma has a major drawback which consumes high energy. Therefore, non-ther...
The conversion of carbon dioxide has been studied using a microwave plasma. A plasma is a highly ene...
It is urgent to reduce CO2 emissions to mitigate the impacts of climate change. The development of a...
It is a well-understood phenomenon that the use of diminishing fossil fuels is causing disturbances ...
A suite of diagnostics is proposed to characterize microwave plasma dissociation of CO2: laser scatt...