Add to ORKGAbstract: Hydrothermal gasification of biomass in supercritical water is one of the rare pathways that potentially allows for a complete conversion of wet waste biomass into Synthetic Natural Gas (SNG). This paper summarises an extensive process design study and discusses some key aspects of the process integration and, in particular, the influence of the feedstock on the optimal process design and its performances. It thereby demonstrates that the process design and performance is not only influenced by available technology, catalyst deactivation issues and scale, but also the characteristics of the processed substrate
<HTML>This paper presents results from a comprehensive process integration study of different proces...
Hydrothermal technologies are broadly defined as chemical and physical transformations in high-tempe...
Biomass may be converted to more useful fuel and chemicals via thermochemical decomposition and biol...
Based on a previously developed thermo-economic process model, this paper presents a detailed design...
Supercritical water gasification, SCWG as a mean for hydrothermal processing of biomass, has illustr...
Hydrothermal processing has evolved as an alternative processing technology for wet biomass and wast...
Supercritical water gasification (SCWG) is a challenging thermo-chemical conversion route for wet bi...
Finding new ways to produce renewable energy is among the most important and strategic challenges of...
Liquid transportation biofuel production is a promising strategy to reduce greenhouse gas emissions....
There are several recent reviews published in the literature on hydrothermal carbonization, liquefac...
Synthetic natural gas (SNG) from gasified biomass is one promising option to produce renewable trans...
The supercritical water gasification process is an alternative to both conventional gasification as ...
Catalytic hydrothermal gasification is a promising technology which allows the conversion of wet bio...
A process evaluation methodology is presented that incorporates flowsheet mass and energy balance mo...
The supercritical water gasification process is an alternative to both conventional gasification as ...
<HTML>This paper presents results from a comprehensive process integration study of different proces...
Hydrothermal technologies are broadly defined as chemical and physical transformations in high-tempe...
Biomass may be converted to more useful fuel and chemicals via thermochemical decomposition and biol...
Based on a previously developed thermo-economic process model, this paper presents a detailed design...
Supercritical water gasification, SCWG as a mean for hydrothermal processing of biomass, has illustr...
Hydrothermal processing has evolved as an alternative processing technology for wet biomass and wast...
Supercritical water gasification (SCWG) is a challenging thermo-chemical conversion route for wet bi...
Finding new ways to produce renewable energy is among the most important and strategic challenges of...
Liquid transportation biofuel production is a promising strategy to reduce greenhouse gas emissions....
There are several recent reviews published in the literature on hydrothermal carbonization, liquefac...
Synthetic natural gas (SNG) from gasified biomass is one promising option to produce renewable trans...
The supercritical water gasification process is an alternative to both conventional gasification as ...
Catalytic hydrothermal gasification is a promising technology which allows the conversion of wet bio...
A process evaluation methodology is presented that incorporates flowsheet mass and energy balance mo...
The supercritical water gasification process is an alternative to both conventional gasification as ...
<HTML>This paper presents results from a comprehensive process integration study of different proces...
Hydrothermal technologies are broadly defined as chemical and physical transformations in high-tempe...
Biomass may be converted to more useful fuel and chemicals via thermochemical decomposition and biol...