碳酸氢钾活化制备水稻秸秆炭孔结构的影响因素及吸附性能
Investigation on the influencing factors of pore structure on rice straw activated carbon with KHCO3 and its adsorption ability
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摘要: 以水稻秸秆为原料,KHCO3为活化剂,制备水稻秸秆基活性炭.采用L9(33)3因素3水平正交实验,探讨制备的实验方案与工艺条件;分析了浸渍比、活化温度、活化时间在3个不同水平下,对水稻秸秆基微孔、中孔活性炭形成的影响.结果表明,活化温度对中孔的形成影响最大,浸渍比对微孔的形成影响最大;活化温度900℃、活化时间1.5 h、浸渍比1∶6的工艺条件适宜中孔的形成,活化温度800℃、活化时间0.5 h、浸渍比1∶6的工艺条件适宜微孔的形成.亚甲基蓝吸附实验表明,水稻秸秆基活性炭对亚甲基蓝的吸附主要受中孔孔容大小影响;Redlich-Peterson方程能较好地描述等温吸附行为,既有单分子层吸附,也有多分子层吸附.Abstract: Rice straw-based activated carbons were prepared with rice straw as raw material by KHCO3 activation. A L9(33) (three three-level factors) orthogonal design table was established to investigate the influences of KHCO3 ratio, activation temperature and activation time on the microporous and mesoporous structures of the activated carbons. The experimental results show that the most important factor on the formation of mesopore is the activation temperature, while the most important factor on the formation of micropore is the KHCO3 dose. The optimal conditions of forming mesopore are as follow:1:6 of KHCO3 ratio, 90 minutes of activation time and 900℃of activation temperature. The optimal conditions of forming micropore are as follow:1:6 ratio of stalk:KHCO3,30 minutes of activation time and 800℃ of activation temperature. The experimental results of methylene blue adsorption show that the most important factor methylene blue adsorption was the size of mesoporous volume. Adsorption isotherm of methylene blue is best fitted with Redlich-Peterson model, which shows the that it not only has mono layer adsorption but also has multimolecular layer adsorption.
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Key words:
- rice straw /
- mesopore /
- micropore /
- orthogonal design /
- adsorption /
- activated carbon
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[1] 史蕊,李依丽,尹晶,等. 玉米秸秆活性炭的制备及其吸附动力学研究[J]. 环境工程学报,2014,8(8):3428-3432. SHI R,LI Y L,YIN J,et al.Preparation of activated carbon from corn straw and research of adsorption kinetics[J]. Chinese Journal of Environmental Engineering,2014,8(8):3428-3432(in Chinese).
[2] SING K S W,EVERETT D H,HAUL R A,et al.Reporting physisorption data for gassolid systems[J].Pure Applied Chemistry,1985,57(4):603-619. [3] 李坤权,李烨,郑正,等. 窄孔径中孔棉秆活性炭的制备与性能表征[J]. 环境化学,2013,32(11):2134-2141. LI K Q,LI Y,ZHENG Z,et al.Preparation,charcterization and adsorption performance of mesoporous cotton stalk activated carbon with narrow pore size distribution[J]. Environmental Chemistry,2013,32(11):2134-2141.
[4] 朱志强,李坤权. 磷酸低温活化蔗渣基中孔生物炭及其影响因素[J]. 环境工程学报,2015,9(6):2667-2673. ZHU Z Q,LI K Q.Preparation and its influence factors of mesoporous activated carbon from bagasse with phosphoric acid activation at low temperature[J]. Chinese Journal of Environmental Engineering,2015,9(6):2667-2673(in Chinese).
[5] 李楠,单保庆,唐文忠,等. 稻壳活性炭制备及其对磷的吸附[J]. 环境工程学报,2013,7(3):1024-1028. LI N,SHAN B Q,TANG W Z,et al.Preparation of powder activated carbon by rice husks and its adsorption capacity to phosphorus[J].Chinese Journal of Environmental Engineering,2013,7(3):1024-1028(in Chinese).
[6] FUERTES A B,CAMPS A M,SEVILLA M,et al.Chemicaland structural properties of carbonaceous products obtainedby pyrolysis and hydrothermal carbonization of corn stover[J].Australian Journal of Soil Research,2010,48(6-7):618-626. [7] HAO W,WANG X Y,WANG X Y,et al.The effect of activation technology on the electrochemical performance of calcium carbide skelton carbon[J].Solid State Electrochem,2012,16(9):2941-2947. [8] 彭超.生物质活性炭的制备及电化学电容性能研究[D].兰州:兰州理工大学,2013. PENG C.The preparation and study on performance of electrochemical capacitive based on activated carbon derived from biomass[D].Lanzhou:Lanzhou University of Technology,2013(in Chinese). [9] 廖钦洪,刘庆业,蒙冕武,等. 稻壳基活性炭的制备及其对亚甲基蓝吸附的研究[J]. 环境工程学报,2011,5(11):2447-2452. LIAO Q H,LIU Q Y,MENG M W,et al.Study on preparation of rice husk-based activated carbon and its adsorption of methylene blue[J].Chinese Journal of Environmental Engineering,2011,5(11):2447-2452(in Chinese).
[10] 李雪英,李坤权,乔小朵,等.活化因素对蔗渣基活性炭中孔结构的影响[J].环境化学,2015,34(11):2017-2024. LI X Y,LI K Q,QIAO X D,et al. The effects of various factors on mesopore structure of bagasse-biomassed carbon[J].Environmental Chemistry,2015,34(11):2017-2024(in Chinese).
[11] 蒋宝城.高比表面积活性炭的制备及其初步应用[D].大连:大连理工大学,2008. JIANG B C.Preparation and preliminary application of high surface area activated carbon[D].Dalian:Dalian University of Technology,2008(in Chinese). [12] 方建辉,姚伯元,韩福顺. 氢氧化钾活化石油焦制备高比表面积活性炭[J]. 化工进展,2011,30(10):2258-2261 ,2281. FANG J H,YAO B Y,HAN F S.Preparation of the activated carbon with high specific surface area from petroleum coke by KOH activation[J]. Chemical Industry And Engineering Progress,2011,30(10):2258-2261,2281(in Chinese).
[13] 张颖. 高比表面积稻壳基活性炭制备及其在废水处理中应用研究[D].长沙:中南大学,2012. ZHANG Y.Preparation of high specific surface area rice husk-based activated carbon and its application research on wastewater treatment[D].Changsha:Central South University,2102(in Chinese). [14] 张伟,杨柳,蒋海燕,等. 污泥活性炭的表征及其对Cr(Ⅵ)的吸附特性[J]. 环境工程学报,2014,8(4):1439-1446. ZHANG W,YANG L,JIANG H Y,et al. Characterization of sludge-based activated carbon and its adsorption properties on Cr(VI)[J].Chinese Journal of Environmental Engineering,2014,8(4):1439-1446(in Chinese).
[15] 李坤权,郑正,张继彪,等. 磷酸活化植物基活性炭对水溶液中铅的吸附[J]. 环境工程学报,2010,4(6):1238-1242. LI K Q,ZHENG Z,ZHANG J B,et al. Adsorption of lead ions onto activated carbon prepared from bio-plant stems activation with H3PO4[J].Chinese Journal of Environmental Engineering,2010,4(6):1238-1242(in Chinese).
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