Litcius/Paper detail

Improvement of Removal Rates for Iron and Manganese in Groundwater Using Dual-Media Filters Filled with Manganese-Oxide-Coated Sand and Ceramic in Nepal

Ankit Man Shrestha, Shinobu Kazama, Benyapa Sawangjang, Satoshi Takizawa

2024Water8 citationsDOIOpen Access PDF

Abstract

Iron and manganese in groundwater impair the quality of drinking water; however, the rates of iron and manganese removal with conventional aeration and rapid sand filtration (RSF) processes vary extensively. Five full-scale aeration–RSF processes in Nepal also showed varying efficiencies of iron and manganese removal; while the iron concentration was below the national standard (0.30 mg/L) in 31 out of the 37 treated waters, the manganese concentration was higher than the standard (0.20 mg/L) in all of the treated waters. Re-aeration and stirring of the treated water did not oxidize soluble manganese, and this caused the poor removal rates for manganese. Bench-scale dual-media filters comprising anthracite on top of sand/ceramic layers with dosages of poly aluminum chloride and chlorine worked well by removing coagulated iron in the anthracite layer and then removing manganese in the sand/ceramic layers. A manganese-oxide-coated ceramic filter provided the highest manganese removal from 1.10 mg/L to <0.01 mg/L, followed by manganese-oxide-coated sand and quartz sand. Increasing the pH from 7.5 to 9.0 stabilized the manganese removal. Therefore, we propose a re-design of the present treatment processes and the selection of suitable filter media for better removal of iron and manganese.

Topics & Concepts

ManganeseAerationAnthraciteFiltration (mathematics)PermanganateCeramicChemistryGroundwaterMetallurgyEnvironmental engineeringMaterials scienceEnvironmental scienceInorganic chemistryGeologyCoalMathematicsGeotechnical engineeringStatisticsOrganic chemistryGeochemistry and Elemental AnalysisHeavy metals in environmentHeavy Metal Exposure and Toxicity