Technological options for the removal of arsenic with special reference to South East Asia

Journal of Environmental Management

Volumn 107, Issue , 2012, Pages 1-18

  Jain, C K ^a   Singh, R D ^b  

^a NIH Centre for Flood Management Studies   (India)

^b NATIONAL INSTITUTE OF HYDROLOGY   (India)

Author keywords

Adsorption; Arsenic; Co precipitation; Ion exchange; Membrane technology; Oxidation; Treatment technologies

Indexed keywords

COPRECIPITATION; GROUNDWATER; HEALTH RISKS; ION EXCHANGE; MEMBRANE TECHNOLOGY; POLLUTION CONTROL; POTABLE WATER;

ARSENIC CONCENTRATION; ARSENIC CONTAMINATION; CO-PRECIPITATION; ION EXCHANGE PROCESS; MEMBRANE PROCESS; REMOVAL OF ARSENICS; SOURCE WATERS; SOUTHEAST ASIA; TECHNOLOGY-BASED; TREATMENT TECHNOLOGIES;

ARSENIC;

ACTIVATED CARBON; ARSENIC; DRINKING WATER; GROUND WATER; HYDROGEN PEROXIDE; IRON OXIDE;

ADSORPTION; ARSENIC; DRINKING WATER; GROUNDWATER POLLUTION; HEALTH IMPACT; ION EXCHANGE; MEMBRANE; OXIDATION; POLLUTANT REMOVAL; PRECIPITATION (CHEMISTRY); SLUDGE; TECHNOLOGICAL DEVELOPMENT; TOXIC SUBSTANCE;

ADSORPTION; ELECTRODIALYSIS; HUMAN; ION EXCHANGE; NANOFILTRATION; NONHUMAN; OXIDATION; PRECIPITATION; REVERSE OSMOSIS; REVIEW; SLUDGE; SLUDGE TREATMENT; SOUTHEAST ASIA; TECHNOLOGY; WATER CONTAMINATION; WATER TREATMENT;

SOUTHEAST ASIA;

EID: 84860845389     PISSN: 03014797     EISSN: 10958630     Source Type: Journal    
DOI: 10.1016/j.jenvman.2012.04.016     Document Type: Review

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