Pa-211 Kinetic rates of hydrothermal glucose decomposition in supercritical water gasification process
スポンサーリンク
概要
- 論文の詳細を見る
Glucose, as a representative biomass model compound, was gasified in a tubular reactor under the pressure of 20-25 MPa. The reaction temperature ranged from 350 to 450 ℃. Hydrothermal decomposition of glucose in the reaction network model was constructed, based on experimental product yields of glucose, fructose, char, gas, furfural, 5-HMF and other water-soluble products (TOG). In this work, change of the water density and temperature influenced reaction rates in hydrothermal gasification of glucose.
- 2012-01-18
著者
関連論文
- P-136 Reactive performance of bio-ethanol for biodiesel production by heterogeneously catalyzed ethanolysis of bio-oils
- Elucidation of thermal pretreatment kinetics of bio-oil feedstock premixed with calcium hydroxide and glycerol for reactive biodiesel production via ethanolysis in developing countries
- New approaches to biodiesel production by ethanolysis with calcium hydroxide catalyst using thermal pretreatment with glycerol
- Heterogeneously catalyzed ethanolysis of groundnut crude oil using activated calcium oxide and surface-modified activated calcium oxide
- 3-4-5 Catalytic Gasification of Poultry Manure and Eucalyptus Wood Mixture in Supercritical Water
- O-506 Reaction kinetics of the lignin decomposition in supercritical water
- Pa-231 Hydrothermal pretreatment of eucalyptus for ethanol production
- Pa-211 Kinetic rates of hydrothermal glucose decomposition in supercritical water gasification process
- Pb-237 Gasification rate of glycine in supercritical water
- Pb-247 Reaction rate of homogeneous phase cellulose in enzymatic hydrolysis reaction
- Pb-239 Reduction in glucose yield for high concentration feedstock in hydrothermal pretreatment of eucalyptus
- Pb-236 Study on gas and char formation from softwood lignin and guaiacol as model compound in sub- and supercritical water
- Pa-221 New technology for catalyst-free biodiesel production from crude palm oil using supercritical MTBE