Paper Titles

Research on the Corrosion Behavior of Nickel Base Alloy in Municipal Sludge Treated by Supercritical Water Oxidation
p.220

Effects of Sucrose on Tuberous Root Formation and Saccharide Accumulation in Manihot esculenta Crantz In Vitro
p.225

Study on Fructan Metabolism and Enzyme Activity of Helianthus tuberosus L.
p.229

A Fuzzy Modeling Approach for Human Health Risk Assessment of Organic Contamination in Groundwater
p.237

An Overview of Drinking Water Treatment
p.244

Brief Introduction of Traditional Seismic Technology and Emerging Isolation Technology
p.250

Geological Environmental Impact Assessment of Mining Subsidence Area Based on Multilayer Fuzzy Synthetic Evaluation
p.254

Health Risk Assessment of Airborne Radon and its Daughters from Uranium Ore District by Monte Carlo Simulation
p.259

Research Progress on Ecological Security Evaluation of Land in China
p.264

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1010-1012An Overview of Drinking Water Treatment

An Overview of Drinking Water Treatment

Article Preview

Abstract:

This paper puts forward the problems existing in the conventional drinking water treatment and expounds the necessary of improving drinking water treatment based on the present water pollution situation and the more stringent water quality standard. According to the existing economic and technical condition in our country, strengthen the conventional drinking water treatment should be done in advance. Besides, adding the pretreatment and depth treatment into the water treatment process is also necessary in the future. For the technology of pretreatment, biological pretreatment technology is the worthiest to study. For improving the conventional drinking water treatments, study the morphology and kinetics mechanism of coagulation is very necessary. For the technology of depth treatment, the activated carbon and biological activated carbon technology will be the main development trend.

You might also be interested in these eBooks

Environmental Protection and Resources Exploitation II

Info:

Periodical:

Advanced Materials Research (Volumes 1010-1012)

Pages:

244-249

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1010-1012.244

Citation:

Cite this paper

Online since:

August 2014

Authors:

Xing Hui Zhao, He Li Wang*, Hao Ming Li

Keywords:

Depth Treatment, Drinking Water Treatment, Pretreatment

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Bowen Cui, Introduction of the conventional and new technology for drinking water treatment in China (In Chinese) , Intelligence Journal, 2012, 26.

[2] Jiajiong Xu., Selection of the integrated water treatment process for the micro-polluted raw water in Hangjia lake area (In Chinese) , Water & Wastewater Engineering Journal, 2009, 35(9).

[3] Ministry of Health of the People's Republic of China. GB5749-2006 Hygienic standard for drinking water. (2006).

[4] You Lü, Typical technological processes and facilities of high efficient coagulation and sedimentation (In Chinese), Water Purification Technology Journal , 2012, 31(1): 38-41.

[5] Qichen Liu, Research progress of enhanced coagulation technique in water treatment engineering (In Chinese), China Chemical Journal , 2009, 1: 35-37.

[6] Shengguang Yuan, Assessment on removal effect of different advanced treatment techniques in waterworks (In Chinese) , Chinese Journal of Environment Engineering, 2008(5).

[7] Zhansheng Wang, The development and the existing problems of water depth processing application in China (In Chinese), Chinese Journal of Health Inspection, 2007, 14(5): 340-345.

[8] Yang Gao, The application of new technology for modern water treatment (In Chinese) , Heilongjiang Science and Technology Information, 2008(17).

[9] Deye Chen, Treatment of xijiang raw water by biological intensified the conventional (In Chinese) , Technology of Water Treatment Journal, 2011, 37(3): 129-131.

[10] Qianming Xu, Study of deep purification technology for urban drinking water (In Chinese) , Mechanical and Electrical Information Journal, 2009, 21: 49-53.

[11] Jiupeng Luo, Treatment technology of low temperature and low turbidity (In Chinese), Water Industry Market Journal, 2010: 73-76.

[12] Jiping Liu, Study on sludge return method to treat raw water with low temperature and low turbidity (In Chinese) , Water & Wastewater Engineering Journal, 1995(1): 12-15.

[13] Wanli Hu, Coagulation· coagulant· coagulation equipment, Beijing: Chemical Industry Press, 2001: 117.

[14] Shaoxiang Wang, Coagulation sedimentation treatment of raw water mixed by the Yangtze river and Huangpu river (In Chinese) , Water Purification Technology, 2010, 29(6): 24-27, 19.

[15] Crozes G, White P, Marshall M, Enhanced Coagulation: Its Effect on NOM Removal and Chemical Costs, J. AWWA, 1995, 87(1): 78-89.

DOI: 10.1002/j.1551-8833.1995.tb06303.x

[16] Cheng R C, Krasner S W, Green J F, et al. Enhanced Coagulation: A Preliminary Evaluation ,J. AWWA, 1995, 87(2): 91-103.

[17] Randke S.J. et al. (1998)Organic Contaminants Removal by Coagulation and Related Processes Combinations, Jour. AWWA. 80: 5: 40.

[18] Zhengong Tong, Analysis on enhanced coagulation technique in water treatment engineering (In Chinese), Journal of East China Jiaotong University, 2004, 21(1): 12-16.

[19] Dennett K E, Coagulation: its effection on organic matter, J. AWWA, 1996, 88(4): 129-138.

[20] Zhou Shi, Enhanced coagulation removal of natural organic matters (NOM) from water (In Chinese) , Journal of Central-south Institute of Technology, 2004, 18(2): 6-9.

[21] Chgangwu Xie, Progress in study of enhanced coagulation technology for removal of humic acid from water (In Chinese), China water & Wastewater, 2004, 20(7): 37-39.

[22] Yaoguo Wu, Review on enhanced coagulation (In Chinese), Industrial Water Treatment, 2005, 25（10）：9-13.

[23] Min Feng, Modern water treatment technologies, Beijing: Chemical Industry Press, (2006).

[24] Heli Wang, Enhancement of conventional coagulation-sedimentation process (In Chinese), Water & Wastewater Engineering, 1999, 25（6）：1-3.

[25] Hanting Li, Study on combined membrane process for drinking water treatment, Shanghai: Environmental science and engineering of Tongji University, (2006).

[26] Gaohui Zhong, Study on the application of submerged ultrafiltration technology in feed water treatment (In Chinese) , Technology of Water Treatment, 2012, 38（2）：91-93.

[27] Guibai Li, The third generation of urban drinking water purification-combined process regard ultrafiltration as the core (In Chinese) , Water & Wastewater Engineering, 2007, 33（4）：1-1.

[28] Rongjun He, The development of water treatment technology (In Chinese), Heilongjiang Science and Technology Information, (2009).

[29] Kaihong Meng, The trend of water treatment technology (In Chinese) , Gansu Agricultural, 2005, (10): 195.

[30] Jing Tian, Analysis of city water treatment technology (In Chinese), Science & Technology Information, 2007，（21）：154.

[31] Boning Wang, Review of advanced treatment of drinking water in China (In Chinese), Guangdong Chemical Industry, 2011, 38（215）: 240-242.

[32] Rong Chen, Applications and research progress of electrosorption (In Chinese), Progress in Chemistry, 2006, 18（1）：80-86.

[33] Genrong Chen, Discussion on advanced treatment of drinking water (In Chinese), China Resources Comprehensive Utilization, 2008, 26（4）：24-26.