改性玉米芯法吸附水中Zn2+的研究
Adsorption of Zn2+ from Water by Modified Corncob
DOI: 10.12677/AEP.2013.35024, PDF, HTML,    国家科技经费支持
作者: 邓 烁, 姜彬慧, 刘日辉, 陈江伟:东北大学资源与土木工程学院
关键词: 改性玉米芯微波Zn2+吸附Modified Corncob; Microwave; Zn2+; Adsorption
摘要: 重金属污染是环境问题的一个重要方面。为了探明生物吸附剂对水体中重金属离子的净化作用,通过微波辐照、酸碱及NaCl浸泡对玉米芯改性,以改性玉米芯对Zn2+的吸附率作为参考指标,运用控制变量法确定最佳改性条件为:微波照射功率280 W,辐照时间5 min,氯化钠质量浓度0.3%。改性玉米芯对水中Zn2+的最佳吸附条件为:玉米芯粒径为1.5 mm,用量20 g/L,吸附时间30 min,摇床转速180 r/minZnCl溶液pH6左右。结果表明,改性玉米芯对低浓度Zn2+的吸附率达90%以上。可见,改性玉米芯对水体中重金属()具有较好地吸附性能。
Abstract: Heavy metal pollution is one of the important parts of environmental problems. In order to find out the bio- logical adsorbent for the purification effect of heavy metal ions in water, the microwave irradiation, as well as the im- mersion in HCl, NaOH and NaCl, was used to modify corncob respectively. The experiment used method of control variables, and the modified corncob adsorption rate of Zn2+ was the reference index. According to the results, the best modified condition was as follows: The power of microwave irradiation was 280 W, the time of microwave irradiation was 5 min, and the concentration of sodium chloride solutions was 0.3%. And the best adsorption condition was as fol- lows: the diameter of corncob was about 1.5 mm, the dosage was 20 g/L, the adsorption time was 30 min, the shaking speed was 180 r/min, and the pH value of liquor zinc chloride was about 6. The results showed that modified corncob adsorption rate of Zn2+ was more than 90% at low concentrations. In conclusion, it is a good adsorption property of heavy metal (zinc) in water by modified corncob.
文章引用:邓烁, 姜彬慧, 刘日辉, 陈江伟. 改性玉米芯法吸附水中Zn2+的研究[J]. 环境保护前沿, 2013, 3(5): 138-143. http://dx.doi.org/10.12677/AEP.2013.35024

参考文献

[1] 况群, 朱玉斌 (2013) 城市污泥中重金属去除方法探析. 资源节约与环保, 1, 73-74.
[2] El-Deeb, B., Gherbawy, Y. and Hassan, S. (2012) Molecular characterization of endophytic bacteria from metal hyperaccu- mulator aquatic plant (Eichhornia crassipes) and its role in heavy metal removal. Geomicrobiology Journal, 29, 906-915.
[3] Pejic, B.M., Vukcevic, M.M., Pajic-Lijakovic, I.D., et al. (2011) Mathematical modeling of heavy metal ions (Cd2+, Zn2+ and Pb2+) biosorption by chemically modified short hemp fibers. Chemical Engineering Journal, 172, 354-360.
[4] 万顺利, 徐圣友, 张庆瑞, 等 (2013) 废弃茶叶渣净化水体中重金属的研究进展. 8, 5-9.
[5] 陈惠雨, 严素定, 揭武, 等 (2013) 改性玉米芯对含铜废水的吸附特性. 工业用水与废水, 1, 980-984.
[6] 高宝云, 邱涛, 李荣华, 等 (2010) 巯基改性玉米秸秆粉对水体重金属离子的吸附性能初探. 西北农林科技大学学报, 3, 187-190.
[7] Ma, H.Y., Hsiao, B.S. and Chu, B. (2013) Electrospun nanofi- brous membrane for heavy metal ion adsorption. Current Or- ganic Chemistry, 17, 1361-1370.
[8] Stravinskene, E.S. and Grigor’ev, Y. S. (2012) The modifying effect of natural waters on the toxicity of heavy metals for algae Chlorella vulgaris. Water Resources, 39, 330-334.
[9] 涂宗财, 胡月明, 陈丽莉, 等 (2013) 豆渣膳食纤维吸附重金属的研究. 食品与机械, 1, 85-87.
[10] Liu, J., Wang, H.-L., Lv, C.-X., et al. (2013) Remove of heavy metals (Cu2+, Pb2+, Zn2+ and Cd2+) in water through modified di- atomite. Chemical Research in Chinese Universities, 29, 445- 448.
[11] 原金海, 邓利均 (2011) 改性膨润土的制备及其对Pb2+的吸附性能研究. 动能材料, 6, 980-984.
[12] Lamya, B., Faeida, B. and Fadhel, I. (2012) Removal of zinv and cadmium from an aqueous solution using sawdust as a low- lost adsorbent: Application of Plackett-Burman design. Desalin Water Treat, 49, 189-199.
[13] 华东理工大学分析化学教研组, 四川大学工科化学基础课程教学基地 (2009) 分析化学(第六版). 高等教育出版社, 北京, 440.