Treatment of Copper Smelting Plant Wastewater with Granulated Adsorbing Materials of Rectorite Composites
The preparation technological conditions and regeneration method of two novel granulated adsorbing materials of rectorite/fly ash composite (Material 1) and rectorite/water quenched slag composite (Material 2) and the use of them to remove heavy metals from copper smelting plant wastewater have been studied.The experimental results showed that under the preparation conditions with the ratio of rectorite to fly ash or water quenched slag of 1:1,the amount of the additive (Industrial Starch,IS) of 15% (Material 1) or 10% (Material 2),the addition of 50% water,and the calcination temperature of 500℃ (Material 1) or 400℃ (Material 2),the efficiency of heavy metal removal with the granulated materials was the best,whereas the ratio of disintegration loss was the lowest.Under the treatment conditions of natural pH,and with the addition of the granulated materials of 0.07g/cm3 (Material 1) or 0.05g/cm3 (Material 2),a reaction time of 60 minutes (Material 1)or 40 minutes (Material 2),and the adsorption temperature of 25℃,the efficiency for the granulated materials to remove Cu2+Pb2+Zn2+Cd2+ and Ni2+ from the copper smelting plant wastewater was 98.9,97.5,96.7,90.2,and 79.1,(Material 1) or 98.2,96.3,78.6,86.2,and 64.2, (Material 2),respectively,and the quality indexes of the wastewater after treatment conformed with the first level of integrated wastewater discharge standard (GB8978-1996).When the adsorption of heavy metal ions on the surface attained saturation the granulated materials could be regenerated by washing with 1 mol/L sodium chloride (NaCl) solution and still with quite good heavy metal removal efficiency.The granulated adsorbing materials had the advantages of high efficiency of wastewater treatment,easy method of solid-liquid separation and regeneration,and a broad prospect of applications.
Granulated adsorbing material Rectorite Fly ash Water quenched-slag Copper smelting plant wastewater
P.Han W.Q.Gong H.K.Wang Y.J.Liu
School of Resources and Environmental Engineering,Wuhan University of Technology,Wuhan,China
国际会议
XXIV International Mineral Processing Congress(第24届国际矿物加工大会)
北京
英文
3894-3898
2008-09-24(万方平台首次上网日期,不代表论文的发表时间)