International audienceOver the past few decades, the sharp rise in post-consumer plastic and biomass waste has resulted in an ever growing challenge to treat such waste sustainably. Co-pyrogasification of plastics and biomass mixtures, as opposed to separately converting these waste streams, offers several advantages including an improvement in syngas quality and composition (H2/CO ratio) in relation to the desired application, and an easier reactor feeding of plastics. Furthermore, many studies have shown that co-pyrogasification promotes the conversion of waste to gas rather than char and tar. However, in order to achieve the desired product distribution or syngas composition, operating parameters such as the reactor temperature, equivale...
Catalytic dry (CO2) reforming of waste plastics was carried out in a two stage, pyrolysis-catalytic ...
Thermochemical conversion through pyrolysis and pyrolysis-catalysis in addition to gasification meth...
Gasification is thermo-chemical conversion technology in which complex organic polymers present in f...
Biomass represents an abundant energy resource, which can provide second generation fuels and value-...
The co-pyrolysis of various biomasses mixed with two types of plastic waste was investigated in this...
The process of co-pyro-gasification of biomass and plastics appears to have the potential for increa...
A two-stage reactor system consisting of co-pyrolysis of biomass and plastic in the 1st stage and ca...
Thermal co-processing of waste mixtures had gained a lot of attention in the last decade largely due...
Abstract. This paper reviews co-pyrolysis processes of different researchers and institutions, depic...
Plastics are abundant and have a high energy content making their use in energy applications attract...
Most plastic materials are non-biodegradable. Thus, disposing of such materials in landfills is unde...
Seven mixtures of coals, plastics and wood have been pelletized and fed into a pre-pilot scale fluid...
The thermochemical conversion of different feedstocks is a technology capable of reducing the amount...
Pyrolysis of plastics is one of the efficient ways to recover plastic waste. Pyrolysis refers to a t...
The thermochemical conversion of waste plastic using a fixed bed pyrolysis system has been considere...
Catalytic dry (CO2) reforming of waste plastics was carried out in a two stage, pyrolysis-catalytic ...
Thermochemical conversion through pyrolysis and pyrolysis-catalysis in addition to gasification meth...
Gasification is thermo-chemical conversion technology in which complex organic polymers present in f...
Biomass represents an abundant energy resource, which can provide second generation fuels and value-...
The co-pyrolysis of various biomasses mixed with two types of plastic waste was investigated in this...
The process of co-pyro-gasification of biomass and plastics appears to have the potential for increa...
A two-stage reactor system consisting of co-pyrolysis of biomass and plastic in the 1st stage and ca...
Thermal co-processing of waste mixtures had gained a lot of attention in the last decade largely due...
Abstract. This paper reviews co-pyrolysis processes of different researchers and institutions, depic...
Plastics are abundant and have a high energy content making their use in energy applications attract...
Most plastic materials are non-biodegradable. Thus, disposing of such materials in landfills is unde...
Seven mixtures of coals, plastics and wood have been pelletized and fed into a pre-pilot scale fluid...
The thermochemical conversion of different feedstocks is a technology capable of reducing the amount...
Pyrolysis of plastics is one of the efficient ways to recover plastic waste. Pyrolysis refers to a t...
The thermochemical conversion of waste plastic using a fixed bed pyrolysis system has been considere...
Catalytic dry (CO2) reforming of waste plastics was carried out in a two stage, pyrolysis-catalytic ...
Thermochemical conversion through pyrolysis and pyrolysis-catalysis in addition to gasification meth...
Gasification is thermo-chemical conversion technology in which complex organic polymers present in f...