上海交通大学学报(英文版) ›› 2012, Vol. 17 ›› Issue (3): 330-333.doi: 10.1007/s12204-012-1280-2
Hydrogen Adsorption by Woodceramics Produced from Biomass
TAKASAKI Akito1, IIJIMA Suguru1, YAMANE Tomoka1, OKABE Toshio2
- (1. Department of Engineering Science and Mechanics, Shibaura Institute of Technology, Tokyo 135-8548, Japan; 2. Aomori Prefectural Industrial Technology Research Center, Aomori 030-0142, Japan)
-
出版日期:2012-06-30发布日期:2012-11-15 -
通讯作者:TAKASAKI Akito1 E-mail:takasaki@sic.shibaura-it.ac.jp
Hydrogen Adsorption by Woodceramics Produced from Biomass
TAKASAKI Akito1, IIJIMA Suguru1, YAMANE Tomoka1, OKABE Toshio2
- (1. Department of Engineering Science and Mechanics, Shibaura Institute of Technology, Tokyo 135-8548, Japan; 2. Aomori Prefectural Industrial Technology Research Center, Aomori 030-0142, Japan)
-
Online:2012-06-30Published:2012-11-15 -
Contact:TAKASAKI Akito1 E-mail:takasaki@sic.shibaura-it.ac.jp
摘要: Hydrogen adsorption characteristics of woodceramics, made from radiata pine wood fiber boards carbonized at 1 473K after impregnation with phenolic resin, with and without chemical treatment in an alkaline (KOH) or an acid (H2 SO4) solution were investigated The hydrogen adsorption capacity is improved by chemical treatment. The chemical treatment by KOH improves the adsorption capacity more than by H2SO4. The improvement of the capacity level, in any solution, is dependent on the type of chemical in the solution and its concentration. The maximum hydrogen capacity measured at 93K is mass fraction about w(H) = 2% for the woodceramics after chemical treatment in a volume fraction ? = 50% KOH solution, although that is about w(H) = 0.7% for one without chemical treatment. The microscopic condition of pores in the woodceramics is thought to vary after chemical treatment.
中图分类号:
引用本文
TAKASAKI Akito1, IIJIMA Suguru1, YAMANE Tomoka1, OKABE Toshio2. Hydrogen Adsorption by Woodceramics Produced from Biomass[J]. 上海交通大学学报(英文版), 2012, 17(3): 330-333.
TAKASAKI Akito1, IIJIMA Suguru1, YAMANE Tomoka1, OKABE Toshio2. Hydrogen Adsorption by Woodceramics Produced from Biomass[J]. Journal of shanghai Jiaotong University (Science), 2012, 17(3): 330-333.
使用本文
| [1] Okabe T, Saito K, Hokkirigawa K. New porous carbon materials, woodceramics: Development and fundamental properties [J]. Journal of Porous Materials,1995, 2: 207-213. [2] Kano M, Momota M, Okabe T, et al. Specific heat capacity of new porous carbon materials: Woodceramics [J]. Thermochimca Acta, 1997, 292(1-2): 175-177. [3] Shibata K, Okabe T, Sauto K. Electromagnetic shielding properties of woodceramics made from wastepaper [J]. Journal of Porous Materials, 1997, 4:269-275. [4] Dillon A C, Jones K M, Bekkedahl T A, et al. Storage of hydrogen in single-walled carbon nanotubes[J]. Nature, 1997, 386: 377-379. [5] Chambers A, Park C, Terry R, et al. Hydrogen storage in graphite nanofibers [J]. Journal of Physical Chemistry B, 1998, 102(22): 4253-4256. [6] Orimo S, Majer G, Fukunaga T, et al. Hydrogen in the mechanically prepared nanostructured graphite [J]. Applied Physics Letter, 1999, 75(20): 3093-3095. [7] Rosi N L, Eckert J, Eddaudi M, et al. Hydrogen storage in microporous metal-organic frameworks [J].Science, 2003, 300: 1127-1129. [8] Mulder F M, Assfour B, Huot J, et al. Hydrogen in the metal-organic framework Cr MIL-53 [J]. Journal of Physical Chemistry C, 2010, 114: 10648-10655. [9] Takasaki A, Otsuka H, Okabe T. Hydrogen absorption and adsorption characteristics of woodceramics transactions [J]. Journal of Materials Research Society of Japan, 2005, 30(4): 1151-1154. [10] Gijs Schimmel H, Kearly G J, Nijkamp M G, et al. Hydrogen adsorption in carbon nanostructures: Comparison of nanotubes, fibers, and coals [J]. Chemistry-A European Journal, 2003, 9(19): 4764-4770 |
| [1] | LIU Xiaominga,b* (刘晓明), ZHANG Hongleia (张宏雷), LI Suqina (李素芹),LI Dongshenga (李东升. Research on Reduction of Fe2O3 by Biomass Sawdust[J]. 上海交通大学学报(英文版), 2017, 22(3): 280-285. |
| [2] | LI Rong1 (李 蓉), ZHENG Chuan-xiang1 (郑传祥), CHEN Bing-bing2* (陈冰冰), ZHOU Wei-wei1 . Research on Hydrogen Environment Fatigue Test System and Correlative Fatigue Test of Hydrogen Storage Vessel[J]. 上海交通大学学报(英文版), 2014, 19(1): 88-94. |
| [3] | LIU Zi-li (刘子利), ZHOU Gui-bin (周桂斌), YAN Xin-chun (闫新春), LIU Xi-qin (刘希琴). Effect of La Addition on Electrochemical Properties of Amorphous LaMg11Zr+200Ni Alloy[J]. 上海交通大学学报(英文版), 2012, 17(3): 291-296. |
| [4] | PAN Jin-feng (潘金凤), WU Ren-ping (吴任平), CHEN Xiao-juan (陈小娟). Preparation of Benzene Adsorption Materials Using Waste Activated Alumina[J]. 上海交通大学学报(英文版), 2012, 17(3): 373-376. |
| [5] | LUO Ping1 (罗平), DONG Shi-jie1 (董仕节), XIE Zhi-xiong2 (谢志雄). Novel Material of Hydrogen Generation[J]. 上海交通大学学报(英文版), 2012, 17(3): 356-359. |
| [6] | DE BENEDETTI Bruno, TECCHIO Paolo, ROLLINO Sara, FOSCHIA Marina, PIGNATELLI Soni. Sustainability Perspectives When Crop Use Is Implemented in Different Sectors: A Life Cycle Assessment Approach [J]. 上海交通大学学报(英文版), 2012, 17(3): 334-336. |
| [7] | ZHAO Wen-chang (赵文昌), CHENG Jin-ping(程金平), CHEN Ying (陈 颖), WANG. Degradation of Selected Indoor Air Pollutants: Comparison Study of Photocatalytic, Ozone-Assisted Photocatalytic and Amine Adsorption Processes[J]. J Shanghai Jiaotong Univ Sci, 2012, 17(1): 13-019. |
| 阅读次数 | ||||||||||||||||||||||||||||||||||||||||||||||||||
|
全文 358
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||
|
摘要 1118
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||