新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2001年
1期
44-48
,共5页
PAN-ACFs%改性%浸渍%热处理%吸附性能
PAN-ACFs%改性%浸漬%熱處理%吸附性能
PAN-ACFs%개성%침지%열처리%흡부성능
聚丙烯腈(PAN-polyacrylonitrile)活性炭纤维(ACF-Activatedcarbonfiber)经浸渍处理后,通过低温氮气吸附法测定了其吸附等温线,并通过BET方法计算了比表面积SBET,用Dubinin-Astakhov方程计算了微孔表面积Smic和微孔容积Vmic,用Horvath-Kawazoe方程计算了微孔容积Vmic和平均孔径D-。发现处理后样品的比表面积、微孔容积均小于未经处理的原样。而其对甲醛的静态与动态吸附容量都大于未经过处理的原样品。比表面积太小的样品对甲醛的吸附容量小于较高比表面积的样品的吸附容量。部分被吸附物于150?℃不能够完全脱除,经推知,所发生的吸附既有物理吸附又有化学吸附,是其表面官能团与孔结构共同作用的结果。样品的元素分析结果表明,处理后样品的C、N含量均增加,O含量降低,吸附过程中含N官能团的作用较显著。浸渍后的样品经热处理,其吸附容量高于未经热处理的样品,说明热处理可以脱除样品表面的杂原子而在PAN-ACFs表面留下许多活性位。
聚丙烯腈(PAN-polyacrylonitrile)活性炭纖維(ACF-Activatedcarbonfiber)經浸漬處理後,通過低溫氮氣吸附法測定瞭其吸附等溫線,併通過BET方法計算瞭比錶麵積SBET,用Dubinin-Astakhov方程計算瞭微孔錶麵積Smic和微孔容積Vmic,用Horvath-Kawazoe方程計算瞭微孔容積Vmic和平均孔徑D-。髮現處理後樣品的比錶麵積、微孔容積均小于未經處理的原樣。而其對甲醛的靜態與動態吸附容量都大于未經過處理的原樣品。比錶麵積太小的樣品對甲醛的吸附容量小于較高比錶麵積的樣品的吸附容量。部分被吸附物于150?℃不能夠完全脫除,經推知,所髮生的吸附既有物理吸附又有化學吸附,是其錶麵官能糰與孔結構共同作用的結果。樣品的元素分析結果錶明,處理後樣品的C、N含量均增加,O含量降低,吸附過程中含N官能糰的作用較顯著。浸漬後的樣品經熱處理,其吸附容量高于未經熱處理的樣品,說明熱處理可以脫除樣品錶麵的雜原子而在PAN-ACFs錶麵留下許多活性位。
취병희정(PAN-polyacrylonitrile)활성탄섬유(ACF-Activatedcarbonfiber)경침지처리후,통과저온담기흡부법측정료기흡부등온선,병통과BET방법계산료비표면적SBET,용Dubinin-Astakhov방정계산료미공표면적Smic화미공용적Vmic,용Horvath-Kawazoe방정계산료미공용적Vmic화평균공경D-。발현처리후양품적비표면적、미공용적균소우미경처리적원양。이기대갑철적정태여동태흡부용량도대우미경과처리적원양품。비표면적태소적양품대갑철적흡부용량소우교고비표면적적양품적흡부용량。부분피흡부물우150?℃불능구완전탈제,경추지,소발생적흡부기유물리흡부우유화학흡부,시기표면관능단여공결구공동작용적결과。양품적원소분석결과표명,처리후양품적C、N함량균증가,O함량강저,흡부과정중함N관능단적작용교현저。침지후적양품경열처리,기흡부용량고우미경열처리적양품,설명열처리가이탈제양품표면적잡원자이재PAN-ACFs표면류하허다활성위。
Adsorption of formaldehyde on PAN-ACFs modified by solutionimpregnation was investigated. Nitrogen adsorption isotherms were determined. It was found that the BET surface area and micropore volume of modified ACF decreased, while the adsorption capacity of formaldehyde increased. In addition, the sample ACF1 with low specific surface area had lower formaldehyde adsorption capacity than that of ACF2 with relatively high specific surface area. The adsorbed formaldehyde couldn't be removed at the temperature lower than 150?℃. It was conferred that the adsorption behavior was controlled by both surface functional groups and pore structure of ACF. The elemental analysis showed that the content of C and N in modified samples increased, while the content of O decreased, which illustrated that nitrogen functional groups played an important role in formaldehyde adsorption. After post heat treatment, adsorption capacity of formaldehyde on samples ACF1 and ACF2 both increased, which showed that heat treatment can increase active sites on ACFs by removing heteroatoms.
