<br />改性累托石吸附处理染料模拟废水的试验-《武汉工程大学学报》

文章信息/Info

Title:: Experiment on roasting modified rectorite
adsorb dye simulation wastewater

文章编号:: 16742869（2011）08008204

作者:: 陈云; 王营茹*; 孙家寿; 罗劼; 段颖姗; 陈佩佩; 武汉工程大学环境与城市建设学院，湖北武汉 430074

Author(s):: CHEN Yun; WANG Yingru; SUN Jiashou; LUO Jie; DUAN Yingshan; CHEN Peipei; School of Environmental and Civil Engineering, Wuhan Institute of Technology,Wuhan 430074,China

关键词:: 累托石; 吸附; 染料废水; 亚甲基蓝

Keywords:: modified rectorite; adsorption; dye simulation wastewater; methylene blue

分类号:: X703

DOI:: -

文献标志码:: AAdoi:10.3969/j.issn.16742869.2011.08.020

摘要:: 采用焙烧改性累托石处理染料模拟废水.探讨了改性累托石用量、处理温度、溶液pH、搅拌时间和转速、模拟废水初始浓度等因素对处理效果的影响.试验结果表明：当累托石用量为1.0 g/L废水、模拟废水初始质量浓度为100 mg/L、搅拌时间为60 min、转速为200 r/min时，在室温和不改变模拟废水pH值的条件下，改性累托石对模拟废水中亚甲基蓝的吸附容量为67.10 mg/g.

Abstract:: Roasting modified rectorite was choosed for adsorbing dye simulation wastewater, and the influence of main factors, such as dosage, temperature, pH, wastewater concentration, time, vibration velocity, were discussed. The experimental result show that, the adsorption capacity of modified rectorite is 67.10 mg/g, which is under the condition of: 1.0 g/L dosage of rectorite, concentration of 100 mg/L simulation wastewater, stirring 60 mins at vibration velocity of 200 r/min and keeping the pH and temperature of simulation wastewater.

参考文献/References:

［1］王湖坤,张敏.累托石对印染废水处理的试验研究［J］.印染助剂,2007,24(9):3133.
［2］张静,陈金毅,孙家寿，等.累托石/TiO2复合材料的制备及其光催化性能研究［J］.武汉工程大学学报,2010,32(6):3538.
［3］付忠田,郑琳子,赵菲菲,等.电化学法处理活性艳蓝XBR模拟染料废水的研究［J］.环境保护科学，2010，36（5）：1417，24.
［4］赵军,宿程远,陈孟林,等.微波辐射吸附催化法处理孔雀石绿染料废水的研究［J］.工业用水与废水,2010,41(5):1921.
［5］刘芳芝,渠会丽,顾朝晖.组合臭氧氧化技术在染料废水处理中的应用［J］.山西化工,2010,30(5):1720.
［6］丁绍兰,李郑坤,王睿.染料废水处理技术综述［J］.水资源保护,2010,26(3):7377.
［7］陈婵维,付忠田,于洪蕾,等.染料废水处理技术进展［J］.环境保护与循环经济,2010(4):3740.
［8］孙家寿,张蕾,陈伟亚,等.生物累托石处理生活污水试验研究［J］.环保科技,2010,16(1):0106.
［9］苗晨,牟淑杰.改性累托石吸附处理含氰废水实验研究［J］.科学技术与工程,2010,10(16):40964099.
［10］徐振华,左莉娜,汤甜玉,等.聚羟基铝铁改性累托石处理低氟饮用水的应用研究［J］.非金属矿,2009,32(1):7781.
［11］唐玉斌,郁防,陈芳艳.累托石/腐殖酸微球的制备及其对Cr(VI)的吸附研究［J］.环境工程学报,2009,3(6):10541058.
［12］孙家寿,张蕾,陈伟亚，等.固定化化生物累托制备与表征［J］.武汉工程大学学报,2008,30(3):5156.
［13］孙家寿,张泽强,刘羽，等.CTMAB交联累托石吸附苯胺废水研究［J］.离子交换与吸取附,2002(23):229232.

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