Structure-Controlled Pyrolysis of Biomass with Sodium Hydroxide for Suppression of Tar Formation
スポンサーリンク
概要
- 論文の詳細を見る
Pyrolysis of NaOH-loaded Douglas fir and cellulose has been carried out to determine the effect of sodium hydroxide on the pyrolysis profile. A tar yield of 0 wt% and the char yield of 32 wt% were obtained at a final pyrolysis temperature of 500°C. It was revealed that the amount of hydroxyl groups in the residue significantly decreased at 200°C and that the structure of cellulose was distorted via cross-linking at the same temperature through spectroscopic analyses and diffraction patterns. The cross-linking led to the increase in char yield at 500°C. A detailed analysis showed that char yield from cellulose at 500°C correlated linearly with the degree of cross-linking calculated from the amount of dehydration at 200°C. These results showed a possibility that the pyrolysis profile of biomass may be controlled through an appropriate pretreatment to change the structure of the intermediate.
- 社団法人 化学工学会の論文
- 2008-04-01
著者
-
Mae Kazuhiro
Department Of Chemical Engineering Kyoto University
-
HASEGAWA Isao
Department of Obstetrics and Gynecology
-
OHMUKAI Yoshikage
Department of Chemical Engineering, Kyoto University
-
FUJIMOTO Kosuke
Department of Chemical Engineering, Kyoto University
-
HAYASHI Shigeya
Ube Industries, Ltd.
-
Hasegawa Isao
Department Of Agricultural And Biological Chemistry College Of Bioresource Sciences Nihon University
-
Hayashi Shigeya
Ube Industries Ltd.
-
Fujimoto Kosuke
Department Of Chemical Engineering Kyoto University
-
Hasegawa Isao
Department Of Chemical Engineering Kyoto University
-
Ohmukai Yoshikage
Department Of Chemical Engineering Kyoto University
-
Mae Kazuhiro
Department Of Chemical Engineering Graduate School Of Engineering Kyoto University
-
Mae Kazuhiro
Department of Chemical Engineering, Kyoto University
関連論文
- Enhancing Reaction Selectivity by Intentional Control of Concentration Profile in Catalytic Microreactor
- Mutational Analysis of BRCA1 Gene in Ovarian and Breast-ovarian Cancer Families in Japan
- Direct Intratumoral Gene Transfer of the Herpes Simplex Virus Thymidine Kinase Gene with DNA-liposome Complexes: Growth Inhibition of Tumors and Lack of Localization in Normal Tissues
- Extraction of Low Rank Coals by Coal Derived Oils at 350℃ for Producing Clean Fuels
- Effect of Metal Compounds on Pyrolysis Profiles of Douglas Fir
- Structure-Controlled Pyrolysis of Biomass with Sodium Hydroxide for Suppression of Tar Formation
- Potential for Using Plant Xylem Sap to Evaluate Inorganic Nutrient Availability in Soil : II. Comparison between the Xylem Sap Method and the Extraction Method (Soil Fertility)
- Potential for Using Plant Xylem Sap to Evaluate Inorganic Nutrient Availability in Soil : I. Influence of Inorganic Nutrients Present in the Rhizosphere on Those in the Xylem Sap of Luffa cylindrica Roem.(Soil Fertility)
- A New Micromixer with Needle Adjustment for Instant Mixing and Heating under High Pressure and High Temperature
- Enhancing Reaction Selectivity by Intentional Control of Concentration Profile in Catalytic Microreactor
- Introduction of Yeast Metallothionein Gene (CUP1) into Plant and Evaluation of Heavy Metal Tolerance of Transgenic Plant at the Callus Stage (Plant Nutrition)
- Stem-Specific Cadmium Accumulation in Cadmium-Tolerant Polygonum thunbergii (Plant Nutrition)
- Translocation and Accumulation of Cadmium in Cadmium-Tolerant Polygonum thunbergii (Plant Nutrition)
- Building Block Approach to SiO_2-TiO_2 Porous Materials
- Clinical Applications of 3-D CT and 3-D Plastic Model in the Maxillo-Facial Region
- Radiographic Study of Extension Phase of Chronic Osteomyelitis of the Mandible
- Facile Fabrication Procedure for C_-Doped Silicon Oxide Thin Films
- Efficient Hydrogen Production from Methanol by Combining Micro Channel with Carbon Membrane Catalyst Loaded with Cu/Zn
- Epitaxial Growth of AgGaS_2 on (100) GaAs by Excimer Laser Deposition
- A New Method for Estimating the Cross-Linking Reaction during the Pyrolysis of Brown Coal
- The effect of tetraalkylammonium ions on the distribution of the silicate anions in aqueous solutions.