液固半移动床分离废水中铯离子的应用

CIESC Journal

• REACTION KINETICS, CATALYSIS AND…… • 上一篇下一篇

液固半移动床分离废水中铯离子的应用

徐聪; 冯孝贵; 景山

Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 100084, China

收稿日期:2006-08-23 修回日期:1900-01-01 出版日期:2007-10-28 发布日期:2007-10-28
通讯作者: 徐聪

Application of liquid solid semi-moving bed to fractionation of cesium ion in wastewater

XU Cong; FENG Xiaogui; JING Shan

Institute of Nuclear and New Energy Technology, Tsinghua University, Beijing 100084, China

Received:2006-08-23 Revised:1900-01-01 Online:2007-10-28 Published:2007-10-28
Contact: XU Cong

摘要/Abstract

摘要： A liquid solid semi-moving bed with non-mechanical particle transport system is proposed and used for fractionation of cesium ion in wastewater. The particle transport system, which consists of a suction chamber, a mixing chamber, a nozzle and a riser tube, is designed to be controlled completely by hydraulic force. Experiments show that continuous feeding and discharging of resin can be realized by the transport system. The removal of ce-sium ion from wastewater is realized. The concentration of cesium ion in effluent liquid remains below 0.1g•L－1 (the initial concentration is 5.3g•L－1) during the 73 hours’ experiment. The average exchange capacity of resin dis-charged from the bed is 0.57mmol•(g dry resin) －1, which is close to the saturated capacity of 0.65mmol•g－1. And it is also proved that the non-homogeneity of particle vertical velocity along the radial direction can seriously influ-ence the ion-exchange process.

关键词: semi-moving bed;ion-exchange;wastewater disposal;particle transport;cesium ion

Abstract: A liquid solid semi-moving bed with non-mechanical particle transport system is proposed and used for fractionation of cesium ion in wastewater. The particle transport system, which consists of a suction chamber, a mixing chamber, a nozzle and a riser tube, is designed to be controlled completely by hydraulic force. Experiments show that continuous feeding and discharging of resin can be realized by the transport system. The removal of ce-sium ion from wastewater is realized. The concentration of cesium ion in effluent liquid remains below 0.1g•L－1 (the initial concentration is 5.3g•L－1) during the 73 hours’ experiment. The average exchange capacity of resin dis-charged from the bed is 0.57mmol•(g dry resin) －1, which is close to the saturated capacity of 0.65mmol•g－1. And it is also proved that the non-homogeneity of particle vertical velocity along the radial direction can seriously influ-ence the ion-exchange process.

Key words: semi-moving bed, ion-exchange, wastewater disposal, particle transport, cesium ion

徐聪, 冯孝贵, 景山. 液固半移动床分离废水中铯离子的应用[J]. CIESC Journal.

XU Cong, FENG Xiaogui, JING Shan. Application of liquid solid semi-moving bed to fractionation of cesium ion in wastewater[J]. .

参考文献

1 Yang, Z.K., Shan, C.X., Su, P.L. Zhu, H., “The study on flocculation of Cd2+ by carboxy-methyl chitosan”, Envir. Sci. Technol., 1, 10—12(2000). (in Chinese)
2 Niu, X.X., “Disposal method of chrome containing waste water”, J. Luoyang Univ., 14(4), 39—43 (1999). (in Chinese)
3 Chen, X.B., “Choice of technology for disposal of acidic dye production waste water”, J. Luoyang Univ., 16, 49—52(2001). (in Chinese)
4 Rubbin, A.J., Lapp, W.L., “Removal of trace metals by foam separation processes”, Separ. Sci., 6, 357—359(1971).
5 Sun, X.X., Song, X.X., Zhang, B., Yu, Z.M., “A study on the coagulation of clay-MMH system with red tide or-ganisms”, Marine Sci., 2, 46—49(1999). (in Chinese)
6 Mao, Y.H., Guo, Z.L., “Application and improvement of two-step CaO neutralizing and sedimentation process for copper mine acid wastewater treatment”, Water Waste-water Eng., 29, 46—50(2003). (in Chinese)
7 Ding, M., Zeng, H.X., “Progress and outlook on remov-ing heavy metals from waste water by ferrite process”, Envir. Sci., 13(2), 59—68(1992). (in Chinese)
8 Wei, X.H., Zhai, X.J., Zou, G.Z., “Research of operation condition on treating waste water containing Ni2+ by fer-rite process”, Appl. Chem. Ind., 34(4), 259—260(2005). (in Chinese)
9 Bhattacharyya, D., “Activated carbon absorption of heavy mental chelates from single and multicomponent systems”, Envir. Prog., 6, 110—114(1987).
10 Liang, R.J., Wang, N., Yao, S.S., Hu, D.Y., Zhang, S.L., “The research on application of weathered coal granular water purifier in printing and dyeing waste water treat-ment (I)”, J. Chongqing Univ. (Nat. Sci. Ed.), 20(4), 10—14 (1997). (in Chinese)
11 Alvarez-Ayusoa, E., Garcla-Sancheza, A., Querol, X., “Purification of metal electroplating waste waters using zeolites”, Water Res., 37, 4855—4862(2003).
12 Ouki, S.K., Kavannagh, M., “Treatment of metals con-taminated wastewaters by use of natural zeolites”, Wat. Sci. Tech., 39(10/11), 115—122(1999).
13 Luo, D.C., Yi, P.G., Chen, A.G., Hu, Z.Y., “Adsorption of Pb2+, Cu2+, Zn2+, Ni2+ and Cr3+ in electroplating waste-water using humic acid resin”, Mater. Protect., 35(4), 54—56(2002). (in Chinese)
14 Kyuchoukov, G., “Extraction of metals with fatty acids”, Chem. Eng. Commun., 17, 219—221(1982).
15 Raghuraman, B., Wieneck, J., “Extraction with emulsion liquid membrane in a hollow fiber contactor”, AIChE J., 39(11), 1885—1889(1993).
16 Volesky, B., “Biosorption of metals by waste biomasses”, Biotech. Prog., 11, 235—250(1995).
17 Engl, A., Kunz, B., “Biosorption uranium in waste wa-ter”, Chem. Tech. Biotechnol., 68(1), 19—22(1995).
18 Zhang, Y.Z., Sun, Y., Ma, H.Y., Wang, R.S., “New ion exchange equipment and their development trend”, Res. Envir. Sci., 9(6), 37—40(1996). (in Chinese)
19 Higgins, I., “Ion exchange apparatus”, US Pat., 3492092 (1970).
20 Carlson, Lee G., “Continuous moving bed ion exchange system”, US Pat., 5126056 (1992).
21 Lehto, J., Harjula, R., “Separation of cesium from nu-clear waste solutions with hexacyanoferrate and ammo-nium phosphomolybdate”, Solvent Extr. Ion Exch., 5(2), 343—352(1987).
22 Ganzerli Valentini, M.T., Stella, R., Cola, M., “Charac-terization of copper hexacyanoferrate(Ⅱ) and (Ⅲ) with reference to their use as cesium adsorbers”, J. Radioanal. Nucl. Chem., 102, 99—110(1986).
23 Sun, Y.X., Jiang, C.Y., Song, C.L., “Absorption proper-ties of potassium titanium hexacyanoferrate (Ⅱ)”, Ion Exch. Adsorpt., 13(2), 147—152 (1997). (in Chinese)
24 Feng, X.G., Jing, S., Wu, Q.L., Chen, J., Song, C.G., “The study on mass-transfer performance of cesium ion exchange with potassium titanium hexacyanoferrate by shallow-bed techniques”, Ion Exch. Adsorpt., 19(5), 399—406(2003). (in Chinese)
25 Xu, S.P., “Studies on the exchange property and mecha-nism of potassium titanium hexacyanoferrate for Cs+”, Master Thesis, Tsinghua University, Beijing (1995). (in Chinese)
26 Xu, S.P., Song, C.L., Jiang, C.Y., “Sorption of cesium by potassium titanium hexacyanoferrate”, Tsinghua Sci. Technol., 1, 77—80(1996).
27 Sun, Y.X., Xu, S.P., Song, C.L., “Mechanism of cesium exchange with potassium titanium hexacyanoferrate(Ⅱ)”, Ion Exch. Adsorpt., 13(5), 447—453(1997). (in Chinese)
28 Xu, S.P., Feng, X.G., Wang, S.Z., Song, C.L., “The pi-lot-plant scale removal of Cs+ from simulated HLLW with potassium titanium hexacyanoferrate”, Ion Exch. Adsorpt., 16(5), 454—460(2000). (in Chinese)
29 Cao, Y., Zhang, J.M., Wang, Y., Zhang, B.J., “The ex-perimental study on the effects of internals on the particle flow in rectangular moving bed”, Chem. Ind. Eng., 16(2), 63—72(1999). (in Chinese)

液固半移动床分离废水中铯离子的应用

Application of liquid solid semi-moving bed to fractionation of cesium ion in wastewater

PDF (PC)

可视化

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