化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
11期
4071-4078
,共8页
王哲%黄国和%安春江%陈莉荣%刘金亮
王哲%黃國和%安春江%陳莉榮%劉金亮
왕철%황국화%안춘강%진리영%류금량
高炉水淬渣%重金属%废水%单一吸附%竞争吸附%动力学模型
高爐水淬渣%重金屬%廢水%單一吸附%競爭吸附%動力學模型
고로수쉬사%중금속%폐수%단일흡부%경쟁흡부%동역학모형
water-quenched blast furnace slag%heavy metal%waste water%single adsorption%competitive adsorption%kinetic modeling
利用等温吸附法考察了高炉水淬渣对Cu2+、Cd2+、Zn2+的单组分吸附和竞争吸附性能。结果表明,单一组分吸附时,金属离子吸附等温线属于“H”形等温线,吸附平衡符合 Langmuir 吸附等温模型,高炉水淬渣吸附的顺序为Cu2+﹥Cd2+﹥Zn2+,这与重金属离子电负性、水合离子半径及荷径比等有关。当加入竞争离子后,Cu2+的吸附等温线基本维持原来形状,且仍旧与 Langmuir 吸附等温模型比较相符,而 Cd2+和 Zn2+的吸附无法与现有等温吸附模型很好地拟合,等温线的形状由于竞争作用也与传统的等温线均不相同,同时各金属离子的吸附量都比单组分的吸附量降低了。吸附动力学过程先是一个快速阶段,然后进入慢速阶段。无论是单组分还是竞争条件下,伪二级动力学方程拟合结果较好,说明高炉水淬渣与Cu2+、Cd2+、Zn2+之间的吸附过程主要是以化学吸附为主。
利用等溫吸附法攷察瞭高爐水淬渣對Cu2+、Cd2+、Zn2+的單組分吸附和競爭吸附性能。結果錶明,單一組分吸附時,金屬離子吸附等溫線屬于“H”形等溫線,吸附平衡符閤 Langmuir 吸附等溫模型,高爐水淬渣吸附的順序為Cu2+﹥Cd2+﹥Zn2+,這與重金屬離子電負性、水閤離子半徑及荷徑比等有關。噹加入競爭離子後,Cu2+的吸附等溫線基本維持原來形狀,且仍舊與 Langmuir 吸附等溫模型比較相符,而 Cd2+和 Zn2+的吸附無法與現有等溫吸附模型很好地擬閤,等溫線的形狀由于競爭作用也與傳統的等溫線均不相同,同時各金屬離子的吸附量都比單組分的吸附量降低瞭。吸附動力學過程先是一箇快速階段,然後進入慢速階段。無論是單組分還是競爭條件下,偽二級動力學方程擬閤結果較好,說明高爐水淬渣與Cu2+、Cd2+、Zn2+之間的吸附過程主要是以化學吸附為主。
이용등온흡부법고찰료고로수쉬사대Cu2+、Cd2+、Zn2+적단조분흡부화경쟁흡부성능。결과표명,단일조분흡부시,금속리자흡부등온선속우“H”형등온선,흡부평형부합 Langmuir 흡부등온모형,고로수쉬사흡부적순서위Cu2+﹥Cd2+﹥Zn2+,저여중금속리자전부성、수합리자반경급하경비등유관。당가입경쟁리자후,Cu2+적흡부등온선기본유지원래형상,차잉구여 Langmuir 흡부등온모형비교상부,이 Cd2+화 Zn2+적흡부무법여현유등온흡부모형흔호지의합,등온선적형상유우경쟁작용야여전통적등온선균불상동,동시각금속리자적흡부량도비단조분적흡부량강저료。흡부동역학과정선시일개쾌속계단,연후진입만속계단。무론시단조분환시경쟁조건하,위이급동역학방정의합결과교호,설명고로수쉬사여Cu2+、Cd2+、Zn2+지간적흡부과정주요시이화학흡부위주。
The single-component and competitive adsorption properties of Cu2+、Cd2+、Zn2+ ions on water-quenched blast furnace slag (WBFS) were investigated by isothermal adsorption experiment. The results showed the adsorption process and isotherm curves of the metal ions followed Langmuir isotherm model and “H” type in single-component adsorption,respectively. The order of the adsorption capacities was Cu2+﹥Cd2+﹥Zn2+,which determined mainly by the electro negativity,hydrated ionic radius and charge to radius ratio. The adsorption isotherms of Cu2+ maintained the original shape and still fitted to Langmuir adsorption model in competitive condition,while the other adsorption model could not well represent the competitive adsorption of Cd2+and Zn2+. The mutual competition and antagonism effect of heavy metals in competitive system resulted in the irregularity of sorption isotherm curves of Cd2+and Zn2+. The adsorption capacities of the competitive ions on WBFS decreased to some extent compared with those of single ion adsorption. The sorption kinetic processes were rapid first and followed slow in accordance with pseudo-second-order kinetic model,which suggested that the process controlling the rate may be a chemical sorption between WBFS and Cu2+、Cd2+、Zn2+.