摘要
在化工及电子等工业生产中,常有高浓度含氟含铵废水产生,需经过复杂的处理工艺才可达标排放。论文以核燃料元件生产过程中产生的废水为例,说明在处理核工业特定的含有高浓度含氟含铵废水的工程设计中,首先应根据废水的特点和处理目标,确定并优化工艺流程关键点、总体工艺与装置,并分析适用性及经济性等多种制约因素,最终确定处理工艺与装置。
In chemical industry and electronic industry, high concentration fluoride and ammonium containing wastewater is often produced, which needs to go through complex treatment process before reaching the discharge standard. This paper takes waste water generated during the production of nuclear fuel components as an example, mainly explains that in the engineering design for the treatment of specific wastewater containing high concentration of fluoride and ammonium in the nuclear industry, the key points of the process flow,the overall process and the unit should be determined and optimized according to the characteristics and treatment objectives of the wastewater, and the applicability, economy and other constraints should be analyzed to finally determine the treatment process and the unit.
作者
尚改彬
SHANG Gai-bin(China Nuclear Power Engineering Co.Ltd.,Zhengzhou 450052,China)
出处
《工程建设与设计》
2020年第14期156-157,共2页
Construction & Design for Engineering
关键词
含氟含铵废水
处理目标
处理工艺
wastewater containing fluoride and ammonium
processing target
treatment process
