Technology for Purifying Gas Emissions of Chemical Plants from Sulfur Dioxide Using Granular Carbonate Sludge

L. Nikolaeva, A. N. Khusnutdinov, E. Khusnutdinova
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Abstract

The results of studies on purification of gas emissions (GE) with a granular sorbent based on carbonate sludge from chemical water treatment are presented. The choice of conditions for modifying carbonate sludge with a sodium silicate solution to obtain a granular sorbent has been experimentally substantiated. It is confirmed that the data obtained correspond to and complement the theoretical principles and laws of colloidal and physical chemistry, industrial ecology, which is important for the choice of engineering solutions. A technological scheme for adsorption purification with a regeneration cycle of granular sorption material based on carbonate sludge from the Naberezhnye Chelny CHPP has been developed. It was concluded that the efficiency of GE treatment increased by up to 99% when using the proposed measures. The environmental and economic indicators of the use of the resulting granular sorbent in the scheme for purifying GE from SO2 in production of sodium hydrosulfite have been calculated. The prevented environmental harm to the environment from the use of the proposed technology has been determined, as well as the cost of production of granular sorption material and the payback period.
利用颗粒碳酸盐污泥净化化工厂气体排放中二氧化硫的技术
本文介绍了利用基于化学水处理碳酸盐污泥的颗粒吸附剂净化气体排放(GE)的研究成果。用硅酸钠溶液对碳酸盐污泥进行改性以获得颗粒状吸附剂的条件选择已得到实验证实。实验证实,所获得的数据符合并补充了胶体和物理化学、工业生态学的理论原则和规律,这对于选择工程解决方案非常重要。在纳别列日涅切尔尼热电厂碳酸盐污泥的基础上,开发了颗粒吸附材料再生循环吸附净化技术方案。得出的结论是,在采用所建议的措施时,GE 处理效率最高可提高 99%。计算了在亚硫酸氢钠生产过程中从二氧化硫中净化 GE 的方案中使用所产生的颗粒吸附剂的环境和经济指标。确定了使用拟议技术所防止的环境危害,以及颗粒吸附材料的生产成本和投资回收期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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