Add to ORKGResults are presented from hydrothermal reaction systems containing organic components, nitrogen components, and an oxidant. Reaction chemistry observed in simple systems and in simple waste simulants is used to develop a model which presents global nitrogen chemistry in these reactive systems. The global reaction path suggested is then compared with results obtained for the treatment of an actual waste stream containing only C-N-0-H species
A reduced chemical kinetic reaction mechanism that could be used in computational fluid dynamics (CF...
With the rapid industrialization over the past decades, proper disposal of organic wastes has attrac...
Liquid biowaste represents more than 98% of the total municipal waste streams on wet basis and 4–5% ...
The reaction pathway of nitrogen containing compounds under hydrothermal liquefaction (HTL) conditio...
Hydrothermal oxidation is a promising new technology for the treatment of radioactive contaminated h...
Hydrothermal treatment (HT) has been proved as a significant pretreatment in decreasing emissions of...
This report reviews chemical reactions leading to the formation of ammonia in Hanford wastes. The ge...
Continual concern has been expressed over potentially hazardous exothermic reactions that might occu...
Simulated results from a detailed elementary reaction mechanism for nitrogen-containing species in f...
International audienceThe nitrogen compounds in tars were investigated at temperature of 500 degrees...
Laboratory simulations have demonstrated that hydrothermal systems have the potential to produce a r...
The activities of HzO and COz can be varied independently in hydrothermal experiments by using certa...
Supercritical water oxidation (SCWO) is a viable technology for hazardous organic waste destruction....
A new technology, hydrothermal oxidation (also called supercritical water oxidation), is being devel...
The book introduces the topic of geochemical modeling of fluids in subsurface and hydrothermal syste...
A reduced chemical kinetic reaction mechanism that could be used in computational fluid dynamics (CF...
With the rapid industrialization over the past decades, proper disposal of organic wastes has attrac...
Liquid biowaste represents more than 98% of the total municipal waste streams on wet basis and 4–5% ...
The reaction pathway of nitrogen containing compounds under hydrothermal liquefaction (HTL) conditio...
Hydrothermal oxidation is a promising new technology for the treatment of radioactive contaminated h...
Hydrothermal treatment (HT) has been proved as a significant pretreatment in decreasing emissions of...
This report reviews chemical reactions leading to the formation of ammonia in Hanford wastes. The ge...
Continual concern has been expressed over potentially hazardous exothermic reactions that might occu...
Simulated results from a detailed elementary reaction mechanism for nitrogen-containing species in f...
International audienceThe nitrogen compounds in tars were investigated at temperature of 500 degrees...
Laboratory simulations have demonstrated that hydrothermal systems have the potential to produce a r...
The activities of HzO and COz can be varied independently in hydrothermal experiments by using certa...
Supercritical water oxidation (SCWO) is a viable technology for hazardous organic waste destruction....
A new technology, hydrothermal oxidation (also called supercritical water oxidation), is being devel...
The book introduces the topic of geochemical modeling of fluids in subsurface and hydrothermal syste...
A reduced chemical kinetic reaction mechanism that could be used in computational fluid dynamics (CF...
With the rapid industrialization over the past decades, proper disposal of organic wastes has attrac...
Liquid biowaste represents more than 98% of the total municipal waste streams on wet basis and 4–5% ...