Decolourization of industrial effluents - Available methods and emerging technologies - A review

被引：372

作者：

Anjaneyulu Y. ^{[1
,3
]}

Sreedhara Chary N. ^{[2
]}

Samuel Suman Raj D. ^{[1
]}

机构：

[1] Center for Environment, Institute of Science and Technology, Jawaharlal Nehru Technological University, Hyderabad, 500 072, A.P.

[2] Analytical Chemistry and Environmental Sciences Division, Indian Institute of Chemical Technology, Hyderabad, 500 007, A.P.

[3] Institute of Science and Technology, Jawaharlal Nehru Technological University, Kukatpally, Hyderabad, 500 072, A.P.

来源：

Reviews in Environmental Science and Bio/Technology | 2005年 / 4卷 / 4期

关键词：

Colourants; Decolourization; Dyes and pigments; Effluents; Emerging technology; Low cost; Organic compounds;

D O I：

10.1007/s11157-005-1246-z

中图分类号：

学科分类号：

摘要：

Water pollution control is presently one of the major thrust areas of scientific research. While coloured organic compounds generally impart only a minor fraction of the organic load to wastewaters, their colour renders them aesthetically unacceptable. Stringent regulating measures are coaxing industries to treat their waste effluents to increasingly high standards. Colour removal, in particular, has recently become an area of major scientific interest as indicated by the multitude of related research reports. During the past two decades, several decolourization techniques have been reported, few of which have been accepted by some industries. There is a need to find alternative treatments that are effective in removing dyes and colourants from large volume of effluents, which are cost-effective, like the biological or integrated systems. This article reviews some of the widely used and most promising industrial wastewater decolourization methods. Data on decolourizing efficiencies of different causative agents, obtained by means of different physical, chemical and biological methods are discussed. Further a critical review is made on the various treatment methodologies and emerging technologies with a note on their advantages and disadvantages. © Springer 2005.

引用

页码：245 / 273

页数：28

共 200 条

[11]

Alton A.I., Korumuller A., Jekel R.M., Ozonation of spent reactive dye baths: Effect of HCO3/CO 3-2 alkalinity, J. Environ. Eng., 128, pp. 689-696, (2002)

[12]

Alves B.M.A., Pinho D.N.M., Ultrafiltration for colour removal of tannery dyeing wastewaters, Desalination, 130, pp. 147-154, (2000)

[13]

Anjaneyulu Y., Hima Bindu V., Studies on the application of reagent laoded PU foam for the removal of coloured organics from industrial effluents, National Seminar on Environment Pollution, Impacts, Remediation and Management, pp. 38-39, (2001)

[14]

Anjaneyulu Y., Hima Bindu V., Application of mixed adsorbent (coconut shell activated carbon, OCSAC-flyash-china clay) for removal of basic dyes from industrial effluents, J. Environ. Pollut., 8, pp. 117-121, (2001)

[15]

Anjaneyulu Y., Hima Bindu V., Anjaneyulu Y., Removal of colour from industrial effluents by using wastebiomass and reagent loaded polyurethane foam, Proceedings of International Conference on Industrial Pollution and Control Technologies, October 1997, pp. 457-462, (1997)

[16]

Anjaneyulu Y., Hima Bindu V., Application of waste biomass for the removal of coloured organics from industrial effluents, Chem. Environ. Res., 9, pp. 105-111, (2000)

[17]

Annadurai G., Krishnan M.R.V., Adsorption of acid dye from aqueous solution by Chitin: Equilibrium studies, Indian J. Chem. Technol., 4, pp. 217-222, (1997)

[18]

Aplin Z., Waite T.D., Comparison of three advanced oxidation processes for degradation of textile dyes, Water Sci. Technol., 42, pp. 345-354, (2000)

[19]

Aretxage A., Romero S., Sarra M., Vincent T., Adsorption step in the biological degradation of textile dye, Biotech. Prog., 17, pp. 664-668, (2001)

[20]

Arslan I., Balcioglu A.I., Advanced oxidate of raw and biotreated textile industry wastewater with O3, H2O2/UV-C and their sequential application, J. Chem. Technol. Biotechnol., 76, pp. 53-60, (2001)

← 1 2 3 4 5 6 7 8 9 10 →