离心萃取器提取对甲酚的实验和模拟研究

CIESC Journal

• SEPARATION SCIENCE & ENGINEERING • 上一篇下一篇

离心萃取器提取对甲酚的实验和模拟研究

周嘉贞^a; 段五华^a; 许金全^a; 杨义燕^b

^a Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 102201, China
^b Department of Chemical Engineering, Tsinghua University, Beijing 100084, China

收稿日期:1900-01-01 修回日期:1900-01-01 出版日期:2007-04-28 发布日期:2007-04-28
通讯作者: 周嘉贞

Experimental and simulation study on the extraction of p-cresol using centrifugal
extractors

ZHOUJiazhen^a;DUANWuhua^a;XUJinquan^a;YANGYiyan^b

^a Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 102201, China
^b Department of Chemical Engineering, Tsinghua University, Beijing 100084, China

Received:1900-01-01 Revised:1900-01-01 Online:2007-04-28 Published:2007-04-28
Contact: ZHOU Jiazhen

摘要/Abstract

摘要： In this study, extraction of p-cresol from the simulated wastewater has been studied using centrifugal extractors and QH-1 extractant. The distribution ratio of p-cresol was approximately 308.5 in the QH-1-p-cresol (pH＝2.0) system. The extraction stage efficiency of the single-stage centrifugal extractor was higher than 92%, and the extraction rate of the three-stage cascade was higher than 99%. When 15% NaOH was used for the stripping of p-cresol in QH-1 solution, the stripping rate of the three-stage cascade reached 100%. A mathematical model of multistage countercurrent extraction process that considers the phase volume change, extraction stage efficiency, and phase entrainment was used to simulate the extraction of p-cresol using centrifugal extractors. The calculated results using this model were in good agreement with the experimental results.

关键词: p-cresol;extraction;QH-1 extractant;centrifugal extractor;mathematical model

Abstract: In this study, extraction of p-cresol from the simulated wastewater has been studied using centrifugal extractors and QH-1 extractant. The distribution ratio of p-cresol was approximately 308.5 in the QH-1-p-cresol (pH＝2.0) system. The extraction stage efficiency of the single-stage centrifugal extractor was higher than 92%, and the extraction rate of the three-stage cascade was higher than 99%. When 15% NaOH was used for the stripping of p-cresol in QH-1 solution, the stripping rate of the three-stage cascade reached 100%. A mathematical model of multistage countercurrent extraction process that considers the phase volume change, extraction stage efficiency, and phase entrainment was used to simulate the extraction of p-cresol using centrifugal extractors. The calculated results using this model were in good agreement with the experimental results.

Key words: p-cresol, extraction, QH-1 extractant, centrifugal extractor, mathematical model

周嘉贞, 段五华, 许金全, 杨义燕. 离心萃取器提取对甲酚的实验和模拟研究[J]. CIESC Journal.

ZHOUJiazhen,DUANWuhua,XUJinquan,YANGYiyan. Experimental and simulation study on the extraction of p-cresol using centrifugal
extractors[J]. .

参考文献

1    Veeresh, G.S., Kumar, P., Mehrotra, I., “Treatment of phenol and cresols in upflow anaerobic sludge blanket (UASB) process: A review”, Water Res., 39(13), 154—170(2005).
2    Kavitha, V., Palanivelu, K., “Destruction of cresols by Fenton oxidation process”, Water Res., 39(13), 3062—3072(2005).
3    Guo, J.X., “Extraction of the cresol from wastewater by castor fatty acid”, China Surfacant Detergent and Cos-metics, 4, 16—18(1991). (in Chinese)
4    Correia, P.F.M.M., Carvalho, J.M.R.D., “Salt effects on the recovery of phenol by liquid-liquid extraction with Cyanex 923”, Sep. Sci. Technol., 40(16), 3365—3380(2005).
5    Fang, H.H.P., Zhou, G.M., “Degradation of phenol and p-cresol in reactors”, Water Sci. Technol., 42(5/6), 237—244(2000).
6    Sergei, P., Yelena, T., Aleksei, R., “Photocatalytic oxida-tion of phenolic compounds in wastewater from oil shale treatment”, Water Sci. Technol., 35(4), 165—174(1997).
7    Ji, X.L., Zhang, J.L., Li, W., Han, Z.T., Wang, Y.P., “Ef-fects of substrate permeation on kinetics of phenol bio-degradation”, Chin. J. Chem. Eng., 11(2), 151—155(2003).
8    Chen, F.Q., Wu, S.F., Chen, J.Z., Rong, S.X., “COD re-moval efficiencies of some aromatic compounds in su-percritical water oxidation”, Chin. J. Chem. Eng., 9(2), 137—140(2001).
9    Ke, W.Q., “Progress in treatment processes of cre-sol-containing wastewater from sebacic acid production”, Environmental Protection of Chemical Industry, 16(2), 80—84(1996). (in Chinese)
10    Sohir, E.R., Ei-Hakim, D.A., Hamdi, G., “Adsorption of typical organic pollutants from wastewater using Inshas incinerator ash”, Adsorp. Sci. Technol., 16(2), 87—99(1998).
11    Chen, J.L., Zhang, Q.X., Xu, J.P., Zhi, Y., Wang, S.P., Liu, Z.H., “Study on the treatment of industrial waste water containing high concentration cresol with macroreticular polymeric adsobent”, J. Nanjing University (Natural Sciences), 31(4), 598—605(1995). (in Chinese)
12    Li, Y.F., Luo, G.S., Dai, Y.Y., “Phenol removal from aqueous solution through hollow fiber membrane extrac-tion”, Chin. J. Chem. Eng., 7(2), 104—109(1999).
13    Wang, Y.D., Chen, M., Xu, L.L., Dai, Y.Y., “Removal of phenol from dilute solutions by predispersed solvent ex-traction”, Chin. J. Chem. Eng., 8(2), 103—107(2000).
14    Huang, J.Z., Liao, W.W., Liu, Z.L., “Studies on waste-water of o-cresol pilot test”, Hu Bei Chemical, (1), 13—14(1999). (in Chinese)
15    Huang, X.Q., Huang, X.R., Zhang, L.P., Zhu, Z.Z., “Re-search of extraction pretreatment for wastewater from producing resorcinol”, J. Universty of Science and Tech-nology of Suzhou (Engineering and Technology), 17(4), 20—22(2004). (in Chinese)
16    Hong, J., Ying, F., Qing, X.G., “Studies on the extraction of phenol in wastewater”, J. Hazard. Mater., 101(2),  179—190(2003).
17    Yang, Y.Y., Li, R.L., Dang, G.Y., Dai, Y.Y., “Chemical complexation-based technique for the treatment of phe-nolic industrial effluents”, Environ. Sci., 16(2), 35—38(1995). (in Chinese)
18    Zhou, X.Z., Zhou, J.Z., Zhang, C.Q., Yu, W.D., “Appli-cation of annular centrifugal contactor on separating in-dium from iron”, Sep. Sci. Technol., 32(16), 2705—2713(1997).
19    Zhou, J. Z., “Study on performance of 10-mm miniature annular centrifugal extractor”, Chinese Chem. Eng., 12(6), 25—29(1984). (in Chinese)
20    Duan, W.H., Song, C.L., Wu, Q.L., Zhou, X.Z., Zhou, J.Z., “Development and performance of a new annular centrifugal contactor for semi-industrial scale”, Sep. Sci. Technol., 40, 1871—1883(2005).
21    Xu, J.Q., Yu, W.D., Duan, W.H., Yang, Y.Y., Zhou, X.Z., Zhou, J.Z., “Study on treating phenolic wastewater with annular centrifugal extractor”, Petroleum Processing and Petrochemicals, 30(12), 46—50(1999). (in Chinese)
22    Li, Z., Li, Y.G., Fei, W.Y., The Processes and Facilities of Liquid-liquid Extraction, Nuclear Energy Press, Beijing, 83—118(1992). (in Chinese)
23    Robert, E.T., Liquid Extraction, McGraw-Hill Book Company, Inc., New York, 399—452(1963).
24    Wang, J. D., Chen, J.Y., Handbook of Solvent Extraction, Chemical Industry Press, Beijing, 825—847(2001). (in Chinese)

离心萃取器提取对甲酚的实验和模拟研究

Experimental and simulation study on the extraction of p-cresol using centrifugal
extractors

PDF (PC)

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

本文评价

离心萃取器提取对甲酚的实验和模拟研究

Experimental and simulation study on the extraction of p-cresol using centrifugal extractors

PDF (PC)

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

本文评价

Experimental and simulation study on the extraction of p-cresol using centrifugal
extractors