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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 246-247Progress in the Application of Refractory Dyeing...

Progress in the Application of Refractory Dyeing Wastewater Treatment Processes

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Abstract:

The state and progress in the treatment technology of dyeing wastewater are summarized in this paper, especially the new treatment technologies coming about in the latest years. The developing trend of treatment for organic matters is discussed as well. In the meantime, regional and water-quality water shortages have also been proven to be the bottlenecks for imposing restrictions on the development of the society and economy after land and energy.

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Periodical:

Applied Mechanics and Materials (Volumes 246-247)

Pages:

635-639

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.246-247.635

Citation:

Cite this paper

Online since:

December 2012

Authors:

Jie Yang

Keywords:

Dyeing Wastewate, Refractory, Wastewater Treatment

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[1] Jiadao Xu (2006) Analysis on the Competitiveness of Printing and Dyeing Industry in Zhejiang Province. Zhejiang Printing and Dyeing Information and Technology 5: 1-7.

[2] Shuming Yang, Changdun Huang (2002) Governance Technology of Textile Printing and Dyeing Industrial Waste Water. Beijing: Chemistry Industrial Publishing House 1: 138-139.

[3] Min Feng (2007) Modern Water Processing Technology. Beijing: Chemistry Industrial Publishing House 3: 76-77.

[4] Jinxia Yan, Qingli Cheng (2005) Study on the Governance Technology of Printing and Dyeing Waste Water. Textile Dyeing and Finishing Journal 28(8): 23-26.

[5] Zhen Chen, Xi Zheng, Riyao Chen, et al (2001) Fenton Reagent Produced in Electrolysis Cell and Its Using in Degradation and Decolorization for Acid Chrome Dye. Environmental Chemistry 20(3): 275-279.

[6] Yun Cheng, Qixing Zhou, Qiying Ma, et al (2003) Research and Development in Techniques of Dyeing Wastewater Treatment. Techniques and Equipment for Environmental Pollution Control 6: 56-60.

[7] Chengguang Zhang, Juan Miao, Dexue Fu (2006) Study of Electrochemistry Treating Organic Wastewater. Applied Chemical Industry 10(9): 798-799.

[8] Dajiang Wang, Lecheng Lei (2001) New Water Technologies and Engineering Design. Beijing: Chemistry Industrial Publishing House 2: 46-48.

[9] Li Zhong, Jianjun Chen (2002) Progress of Treating Organic Wastewater with Advanced Oxidation Technology. Industrial Water Treatment 22(1): 1-5.

[10] Hong Zhu, Jie Sun, Jianchao Li (2004) Printing and Dyeing Wastewater Treatment Technology. Beijing: China Textile Press 3: 210-211.

[11] Ciardelli G, Capannelli G, Bottino A (2001) Ozone treatment of textile wastewater for reuse. Wat Sci Tech 44(5): 61-67.

DOI: 10.2166/wst.2001.0252

[12] Legrini O, Oliveros E, Braun A M (1993) Photochemical processes for water treatment. Chem Rev 93(2): 671-678.

DOI: 10.1021/cr00018a003

[13] Ahmet Altin (2008) An Alternative Type of Photoelectron-Fenton Process for the Treatment of Landfill Leachate. Sepn and Purifn. Technol 61: 391-397.

DOI: 10.1016/j.seppur.2007.12.004

[14] Margaret A Engwall, Joseph J Pignatello, Domenico Grasso (1999) Degradation and detoxification of the wood preservatives creosote and pentachlorophenol in water by the Photo- Fenton reaction. Wat Res 33(5): 1151-1158.

DOI: 10.1016/s0043-1354(98)00323-6

[15] Kuo W G (1992) Decolorizing Dye Wastewater with Fenton Reagent. Wat Res 26(7): 881-886.

DOI: 10.1016/0043-1354(92)90192-7

[16] Lecheng Lei, Dajiang Wang (2000) Study on the Advanced Oxidation of Polyvinyl-Alcohol by the Photo-Fenton Reaction. Acta Scientiae Circumstantiae 20 (2): 53-59.

[17] Zhan Qian, Chaohai Wei, Yaping Zhang, et al (2006) Study on Degradation of Reactive Brilliant Orange X-Gn by Uv/Fe3+/H2O2 System. Environmental Chemistry 25(2): 194-198.

[18] Lianjun Zhang, Fucai Yin, et al (2007) Study on the Biodegradability of Printing and Dyeing Wastewater by Ultrasonic Wave. Anhui Chemical Industry 8(4): 50-52.

[19] Hua Xiao, Rongfeng Zhou (2004) Current Electro-Fenton Research Situation and Development. Shanghai Environmental Science 23(6): 253-254.

[20] Zhang Hui, Chol Heung-jin, Huang Chin-pao (2005) Optimization of Fenton Process for the Treatment of Landfill Leachate. Hazard. Mater 125 (3): 166-170.

[21] Fang Zhang, Guangming Li, Xiuhua Zhao, et al (2004) Study Status and Progress in Wastewater Treatment by Electro-Fenton Method. Industrial Wastewater Treatment 24 (12) 9-13.

[22] Ahmet Altin (2008) An Alternative Type of Photoelectron-Fenton process for the Treatment of Landfill Leachate. Sepn. and Pu-rifn. Technol 61: 391-397.

DOI: 10.1016/j.seppur.2007.12.004