机构地区:[1]State Key Laboratory of Pollution Control and Resources Reuse, College of Environmental Science and Engineering, Tongji University, Shanghai 200092, China [2]State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, Harbin 150090, China
出 处:《Frontiers of Environmental Science & Engineering》2014年第2期169-179,共11页环境科学与工程前沿(英文)
摘 要:A1-Fe (hydr)oxides with different A1/Fe molar ratios (4:1, 1:1, 1:4, 0:1) were prepared using a co- precipitation method and were then employed for simultaneous removal of arsenate and fluoride. The 4A1 : Fe was superior to other adsorbents for removal of arsenate and fluoride in the pH range of 5.0-9.0. The adsorption capacity of the A1-Fe (hydr)oxides for arsenate and fluoride at pH 6.50.3 increased with increasing A1 content in the adsorbents. The linear relationship between the amount of OH released from the adsorbent and the amount of arsenate or fluoride adsorbent by 4A1 : Fe indicated that the adsorption of arsenate and fluoride by A1- Fe (hydr)oxides was realized primarily through quantita- tive ligand exchange. Moreover, there was a very good correlation between the surface hydroxyl group densities of A1-Fe (hydr)oxides and their adsorption capacities for arsenate or fluoride. The highest adsorption capacity for arsenate and fluoride by 4A1 : Fe is mainly ascribed to its highest surface hydroxyl group density besides its largest pHpzc. The dosage of adsorbent necessary to remove arsenate and fluoride to meet the drinking water standard was mainly determined by the presence of fluoride since fluoride was generally present in groundwater at much higher concentration than arsenate.A1-Fe (hydr)oxides with different A1/Fe molar ratios (4:1, 1:1, 1:4, 0:1) were prepared using a co- precipitation method and were then employed for simultaneous removal of arsenate and fluoride. The 4A1 : Fe was superior to other adsorbents for removal of arsenate and fluoride in the pH range of 5.0-9.0. The adsorption capacity of the A1-Fe (hydr)oxides for arsenate and fluoride at pH 6.50.3 increased with increasing A1 content in the adsorbents. The linear relationship between the amount of OH released from the adsorbent and the amount of arsenate or fluoride adsorbent by 4A1 : Fe indicated that the adsorption of arsenate and fluoride by A1- Fe (hydr)oxides was realized primarily through quantita- tive ligand exchange. Moreover, there was a very good correlation between the surface hydroxyl group densities of A1-Fe (hydr)oxides and their adsorption capacities for arsenate or fluoride. The highest adsorption capacity for arsenate and fluoride by 4A1 : Fe is mainly ascribed to its highest surface hydroxyl group density besides its largest pHpzc. The dosage of adsorbent necessary to remove arsenate and fluoride to meet the drinking water standard was mainly determined by the presence of fluoride since fluoride was generally present in groundwater at much higher concentration than arsenate.
关 键 词:A1-Fe (hydr)oxides GROUNDWATER ADSORPTION hydroxyl group ligand exchange
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