新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2007年
2期
135-140
,共6页
苏伟%周亚平%魏留芳%孙艳%周理
囌偉%週亞平%魏留芳%孫豔%週理
소위%주아평%위류방%손염%주리
活性炭%微孔结构%表面改性%储氢
活性炭%微孔結構%錶麵改性%儲氫
활성탄%미공결구%표면개성%저경
Activated carbon%Microstructure%Surface modification%Hydrogen storage
研究了椰壳基活性炭微孔结构和化学改性对其储氢能力的影响.结果表明,物理活化的椰壳基活性炭用HF或NH3·H2O处理后可提高活性炭的吸氢能力,用HNO3处理后吸氢能力几乎没有什么变化,而用H3PO4处理后吸氢能力却有明显的下降.活性炭的比表面积、孔径分布和表面性质都会影响其吸附氢气的能力,其中,比表面积是最主要的影响因素.
研究瞭椰殼基活性炭微孔結構和化學改性對其儲氫能力的影響.結果錶明,物理活化的椰殼基活性炭用HF或NH3·H2O處理後可提高活性炭的吸氫能力,用HNO3處理後吸氫能力幾乎沒有什麽變化,而用H3PO4處理後吸氫能力卻有明顯的下降.活性炭的比錶麵積、孔徑分佈和錶麵性質都會影響其吸附氫氣的能力,其中,比錶麵積是最主要的影響因素.
연구료야각기활성탄미공결구화화학개성대기저경능력적영향.결과표명,물리활화적야각기활성탄용HF혹NH3·H2O처리후가제고활성탄적흡경능력,용HNO3처리후흡경능력궤호몰유십요변화,이용H3PO4처리후흡경능력각유명현적하강.활성탄적비표면적、공경분포화표면성질도회영향기흡부경기적능력,기중,비표면적시최주요적영향인소.
The effect of the microstructure of coconut-shell-based activated carbons, and their treatment with chemicals, on hydrogen adsorption capacity was studied. Active carbons from coconut shells using physical activation could be improved for hydrogen adsorption by treatment with HF or NH3 ·H2O. Treatment with HNO3 had no obvious effect and the treatment with H3PO4 lowered the hydrogen adsorption capacity considerably. All of the effects could be accounted for by changes in the specific surface area, pore size distribution, and surface chemistry of the active carbons. The specific surface area of carbons was the dominant factor for hydrogen adsorption no matter what kind of treatment was performed.
