Add to ORKGThis thesis reports some insight into fundamental chemistry of cellobiose decomposition in hot-compressed water (HCW). This includes the effect of mild temperature, initial cellobiose concentration, weakly acidic condition and AAEM chlorides on decomposition behaviour of cellobiose. The new knowledge provides fundamental understanding on decomposition mechanisms of sugar oligomers into monomers and other products. Such knowledge is also essential to understanding the decomposition behaviour of more complex cellulose and biomass conversion in HCW
Thesis (Ph.D.), Department of Biological Systems Engineering, Washington State UniversityAcidic aque...
Mechanisms for bio-crude formation during the conversion of glucose, xylose and glucose-xylose mixtu...
Producción CientíficaIn this study, the effect of temperature and pressure on cellulose and glucose ...
This paper reports a systematic investigation on the primary decomposition mechanism and kinetics of...
This paper reports a systematic study on the catalytic effect of alkali and alkaline earth metal (AA...
Abstract This paper systematically reports the major organic acids produced during cellobiose decomp...
The paper reports the cellobiose hydrothermal decomposition at 200–250 °C under non-catalytic (with ...
This PhD thesis reports new knowledge on hydrothermal decomposition mechanisms of fructose, glucose,...
Knowledge on the primary liquid products is essential to understanding the primary hydrolysis reacti...
This study shows the dynamic evolution of the primary liquid products with conversion during the hyd...
The thermal decomposition of Avicel cellulose was studied by non-isothermal differential scanning ca...
Acidic aqueous-phase pretreatment is a promising approach that has been directed at maximizing inter...
Abstract−The effects of reaction temperature, pressure and residence time were investigated with a f...
A full understanding of all possible elementary reactions applicable to cellulose fast pyrolysis is ...
Producción CientíficaAt extremely low reaction times (0.02 s), cellulose was hydrolyzed in supercrit...
Thesis (Ph.D.), Department of Biological Systems Engineering, Washington State UniversityAcidic aque...
Mechanisms for bio-crude formation during the conversion of glucose, xylose and glucose-xylose mixtu...
Producción CientíficaIn this study, the effect of temperature and pressure on cellulose and glucose ...
This paper reports a systematic investigation on the primary decomposition mechanism and kinetics of...
This paper reports a systematic study on the catalytic effect of alkali and alkaline earth metal (AA...
Abstract This paper systematically reports the major organic acids produced during cellobiose decomp...
The paper reports the cellobiose hydrothermal decomposition at 200–250 °C under non-catalytic (with ...
This PhD thesis reports new knowledge on hydrothermal decomposition mechanisms of fructose, glucose,...
Knowledge on the primary liquid products is essential to understanding the primary hydrolysis reacti...
This study shows the dynamic evolution of the primary liquid products with conversion during the hyd...
The thermal decomposition of Avicel cellulose was studied by non-isothermal differential scanning ca...
Acidic aqueous-phase pretreatment is a promising approach that has been directed at maximizing inter...
Abstract−The effects of reaction temperature, pressure and residence time were investigated with a f...
A full understanding of all possible elementary reactions applicable to cellulose fast pyrolysis is ...
Producción CientíficaAt extremely low reaction times (0.02 s), cellulose was hydrolyzed in supercrit...
Thesis (Ph.D.), Department of Biological Systems Engineering, Washington State UniversityAcidic aque...
Mechanisms for bio-crude formation during the conversion of glucose, xylose and glucose-xylose mixtu...
Producción CientíficaIn this study, the effect of temperature and pressure on cellulose and glucose ...