石河子大学学报(自然科学版)
石河子大學學報(自然科學版)
석하자대학학보(자연과학판)
JOURNAL OF SHIHEZI UNIVERSITY (NATURAL SCIENCE)
2014年
3期
349-354
,共6页
马新芳%李德强%武占省%孟桂花%吴禹翰%张海燕%刘志勇
馬新芳%李德彊%武佔省%孟桂花%吳禹翰%張海燕%劉誌勇
마신방%리덕강%무점성%맹계화%오우한%장해연%류지용
甜菜渣%微波%活性炭%吸附%表征
甜菜渣%微波%活性炭%吸附%錶徵
첨채사%미파%활성탄%흡부%표정
Sugar beet pulp%Microwave%Activated carbon%Adsorption%Characterization
为了使甜菜渣得到更加充分有效的利用,本文探究了以甜菜渣为原料、氯化锌为活化剂、微波辅助制备甜菜渣活性炭的可行性。本文研究了甜菜渣和氯化锌溶液的比例(料液比)、氯化锌浓度、微波功率和辐照时间对活性炭吸附性能和产率的影响,并用氮气等温吸附、红外光谱和扫描电镜分析了最优制备条件下活性炭的比表面积、表面官能团和微观孔结构,得出其制备的最佳工艺条件为:料液比1∶6,氯化锌浓度30%,微波功率700 W和微波时间10 min。相应的活性炭的碘吸附量为1127.57 mg/g,亚甲基蓝吸附量为217.7 mg/g,产率为25.9%,BET比表面积为927.36 m2/g,总孔容为0.39 cm3/g,且表面具有含氧官能团和较好的孔结构。实验结果证实,以甜菜渣为原料、氯化锌为活化剂的微波辅助制备甜菜渣活性炭是可行的,为开发甜菜渣的高附加值产品提供了理论依据。
為瞭使甜菜渣得到更加充分有效的利用,本文探究瞭以甜菜渣為原料、氯化鋅為活化劑、微波輔助製備甜菜渣活性炭的可行性。本文研究瞭甜菜渣和氯化鋅溶液的比例(料液比)、氯化鋅濃度、微波功率和輻照時間對活性炭吸附性能和產率的影響,併用氮氣等溫吸附、紅外光譜和掃描電鏡分析瞭最優製備條件下活性炭的比錶麵積、錶麵官能糰和微觀孔結構,得齣其製備的最佳工藝條件為:料液比1∶6,氯化鋅濃度30%,微波功率700 W和微波時間10 min。相應的活性炭的碘吸附量為1127.57 mg/g,亞甲基藍吸附量為217.7 mg/g,產率為25.9%,BET比錶麵積為927.36 m2/g,總孔容為0.39 cm3/g,且錶麵具有含氧官能糰和較好的孔結構。實驗結果證實,以甜菜渣為原料、氯化鋅為活化劑的微波輔助製備甜菜渣活性炭是可行的,為開髮甜菜渣的高附加值產品提供瞭理論依據。
위료사첨채사득도경가충분유효적이용,본문탐구료이첨채사위원료、록화자위활화제、미파보조제비첨채사활성탄적가행성。본문연구료첨채사화록화자용액적비례(료액비)、록화자농도、미파공솔화복조시간대활성탄흡부성능화산솔적영향,병용담기등온흡부、홍외광보화소묘전경분석료최우제비조건하활성탄적비표면적、표면관능단화미관공결구,득출기제비적최가공예조건위:료액비1∶6,록화자농도30%,미파공솔700 W화미파시간10 min。상응적활성탄적전흡부량위1127.57 mg/g,아갑기람흡부량위217.7 mg/g,산솔위25.9%,BET비표면적위927.36 m2/g,총공용위0.39 cm3/g,차표면구유함양관능단화교호적공결구。실험결과증실,이첨채사위원료、록화자위활화제적미파보조제비첨채사활성탄시가행적,위개발첨채사적고부가치산품제공료이론의거。
In order to utilize sugar beet pulp (SBP) sufficiently and effectively,the feasibility that zinc chloride as activator and SBP as raw material were selected to prepare activated carbon from sugar beet pulp (SBPAC) and the microwave-assisted method was explored in present study.Effects of SBP/ZnCl2 ratio (solid-liquid ratio),ZnCl2 concentration,microwave level and irradiation time on adsorption properties and yield of SBPAC were investigated.Meanwhile,the SBPAC under optimal preparation condition of solid-liquid ratio of 1∶6,30%ZnCl2 concentration,700 W of microwave level and 10 min of irradiation time was characterized by nitrogen adsorption-desorption isotherms,fourier transform infrared spectroscopy and scanning electron microscopy.The corresponding adsorbance of iodine, adsorbance of methylene blue,yield,BET surface area and total pore volume were 1127.57 mg/g,217.7 mg/g, 25.9%,927.36 cm2/g and 0.39 cm3/g,respectively,and the oxygen-containing functional groups on the surface and better pore structure were observed.The SBP as raw material and zinc chloride as an activator via microwave-assisted method to prepare SBPAC was confirmed in present study.It provides a theoretical basis to the development of high value-added products for SBP.
