Removal of ammonia and nitrates from contaminated water by using solid waste bio-adsorbents

S. Dey, N. Haripavan, S.R. Basha, G.V. Babu
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引用次数: 21

Abstract

The presence of pollutants in aqueous solution mainly from hazardous heavy metals and metalloids is creating an environmental and social problem. The ammonia and nitrates are one of the major groundwater contaminants present in the rural areas. A nitrate was regulated in drinking water quality mainly due to excess amounts can cause methemoglobinemia disease. Ammonia in both gaseous and liquid form can be irritating to the eyes, respiratory tract failure and skin due to its alkaline nature. The biological effects of ammonia and nitrates in humans after acute exposures are dose-related depend on their concentration; the amount is taken by the body and duration of exposure. Biosorption is a physiochemical process that occurs naturally in certain biomass which allows it to passively concentrate and bind contaminants onto its cellular structure. It is metabolically passive process not require energy and amount of contaminants in sorbent can remove is dependent on kinetic equilibrium and composition of the sorbents at cellular surface. Every biosorbent had different physical, chemical and biological properties for heavy metals removal by biosorption from the water. The oxygen functional groups are very important characteristics of biosorbents because they measured the surface properties and hence their quality as biosorbents. The analysis of isotherm data by fitting them to different models is important to find a sustainable model that can be used. From the biosorption isotherms describe how the sorbate molecules are distributed between the liquid phase and solid phase when the system reaches equilibrium. The process can be made economical by regenerating and reusing of biosorbent after removing the metals. Various bioreactors can be used in biosorption for the removal of metal ions from large volume of water.

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利用固体废物生物吸附剂去除污水中的氨和硝酸盐
水溶液中主要来自有害重金属和类金属的污染物的存在正在造成环境和社会问题。氨和硝酸盐是农村地区主要的地下水污染物之一。一种硝酸盐在饮用水质量中受到调节,主要是因为过量会导致高铁血红蛋白血症。由于氨的碱性,气态和液态的氨都会刺激眼睛,导致呼吸道衰竭和皮肤。急性暴露后人体内氨和硝酸盐的生物学效应与浓度有关;人体吸收的量和暴露的时间。生物吸附是在某些生物质中自然发生的一种物理化学过程,使其能够被动地将污染物浓缩并结合到其细胞结构上。它是一种代谢被动过程,不需要能量,吸收剂中污染物的去除量取决于细胞表面吸附剂的动力学平衡和组成。每种生物吸附剂对水中重金属的生物吸附都具有不同的物理、化学和生物性能。氧官能团是生物吸附剂非常重要的特征,因为它们测量了生物吸附剂的表面性质,从而决定了它们作为生物吸附剂的质量。通过将等温线数据拟合到不同的模型中进行分析,对于找到可使用的可持续模型非常重要。从生物吸附等温线描述了当系统达到平衡时山梨酸分子在液相和固相之间的分布情况。通过去除金属后对生物吸附剂进行再生和再利用,使该工艺具有经济效益。各种生物反应器可用于生物吸附,以去除大量水中的金属离子。
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来源期刊
Current research in chemical biology
Current research in chemical biology Biochemistry, Genetics and Molecular Biology (General)
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