生物质化学工程
生物質化學工程
생물질화학공정
BIOMASS CHEMICAL ENGINEERING
2014年
2期
1-7
,共7页
卢辛成%蒋剑春%孙康%谢新苹%张艳萍%王金表
盧辛成%蔣劍春%孫康%謝新蘋%張豔萍%王金錶
로신성%장검춘%손강%사신평%장염평%왕금표
活性炭%氯化汞%比表面性质%吸附动力学%吸附等温线
活性炭%氯化汞%比錶麵性質%吸附動力學%吸附等溫線
활성탄%록화홍%비표면성질%흡부동역학%흡부등온선
activated carbon%mercury chloride%specific surface properties%adsorption kinetics%adsorption isotherm
以椰壳活性炭为原料,采用水蒸气法二次活化制备得到了微孔含量丰富的椰壳活性炭,其亚甲基蓝吸附值165 mg/g,碘吸附值1090 mg/g。采用氮气吸附等温线对其比表面积和孔结构进行了表征。以氯化汞为污染目标物,考察了活性炭对于Hg2+的吸附性能。结果表明,活性炭对Hg2+的吸附量与其比表面积以及孔结构有关。吸附动力学实验表明活性炭吸附是一个快速吸附和缓慢吸附共存的双速过程,可以用Lagergren伪二级速率方程进行拟合;吸附等温线实验表明活性炭吸附Hg2+是一个放热的过程,属于单分子层吸附,符合Langmuir吸附等温式。
以椰殼活性炭為原料,採用水蒸氣法二次活化製備得到瞭微孔含量豐富的椰殼活性炭,其亞甲基藍吸附值165 mg/g,碘吸附值1090 mg/g。採用氮氣吸附等溫線對其比錶麵積和孔結構進行瞭錶徵。以氯化汞為汙染目標物,攷察瞭活性炭對于Hg2+的吸附性能。結果錶明,活性炭對Hg2+的吸附量與其比錶麵積以及孔結構有關。吸附動力學實驗錶明活性炭吸附是一箇快速吸附和緩慢吸附共存的雙速過程,可以用Lagergren偽二級速率方程進行擬閤;吸附等溫線實驗錶明活性炭吸附Hg2+是一箇放熱的過程,屬于單分子層吸附,符閤Langmuir吸附等溫式。
이야각활성탄위원료,채용수증기법이차활화제비득도료미공함량봉부적야각활성탄,기아갑기람흡부치165 mg/g,전흡부치1090 mg/g。채용담기흡부등온선대기비표면적화공결구진행료표정。이록화홍위오염목표물,고찰료활성탄대우Hg2+적흡부성능。결과표명,활성탄대Hg2+적흡부량여기비표면적이급공결구유관。흡부동역학실험표명활성탄흡부시일개쾌속흡부화완만흡부공존적쌍속과정,가이용Lagergren위이급속솔방정진행의합;흡부등온선실험표명활성탄흡부Hg2+시일개방열적과정,속우단분자층흡부,부합Langmuir흡부등온식。
Activated carbon with micropores was prepared from coconut carbon using steam activation by secondary activation. N2-adsorption isotherm, mathematical models such as D-R equation and BJH methods were used to characterize the properties of the prepared activated carbons. With mercury chloride as pollution targets, the adsorption properties of activated carbon for Hg2+were investigated. The results indicated that the adsorption of Hg2+ was obviously influenced by surface area and pore structure of activated carbon. The process of adsorption was a two speed process with rapidly adsorption and slowly adsorption coexisting. This process could be well described by Lagergren pseudo second order model. The adsorption isotherm experiment showed that adsorption of Hg2+ on activated carbon is an exothermic and single molecular layer adsorption process. It could be fitted by Langmuir isotherm model.