摘要
根据燃煤电厂高镁型脱硫废水的水质特点,针对目前软化工艺存在的运行问题,提出三级加药“离子平衡”方案。结果表明,脱硫废水中的n(Mg^(2+))∶n(SO_(4)^(2-))调节至1∶1时,与未进行水质调节的现有化学软化法相比,石灰乳Ca(OH)_(2)的利用率从81%提高到94%,后续Na_(2)CO_(3)的加药量减少72%。该方案对多种水质均有明显的成本优势,并进一步提出2座均化池的组合设计,便于实际应用在工程项目中。
According to the water quality of desulfurization wastewater with high magnesium ions and the current problems of softening process in coal-fired power plants,a three-stage"anion-cation balance"softening technology was proposed.The research result showed,when the concentration ratio of Mg^(2+)and SO_(4)^(2-)was adjusted to 1∶1,compare to the existing chemical softening process without water quality adjustment,the utilization of Ca(OH)_(2) increased from81%to 94%.Furthermore,the dosage of subsequent Na2 CO3 was effectively reduced by 72%.The technical solution had obvious cost advantage for various water qualities.In order to apply in practical engineering application,the combined design of two equalization basin was further proposed.
作者
赵飞
石中喜
张净瑞
黄奕军
万忠诚
郑煜铭
Zhao Fei;Shi Zhongxi;Zhang Jingrui;Huang Yijun;Wan Zhongcheng;Zheng Yuming(Shengfa Environmental Protection(Xiamen)Co.,Ltd.,Xiamen 361022,China;Key Laboratory of Urban Pollutant Conversion,Institute of Urban Environment,Chinese Academy of Sciences,Xiamen 361021,China)
出处
《工业水处理》
CAS
CSCD
北大核心
2021年第4期97-101,共5页
Industrial Water Treatment
基金
福建省中科院STS计划配套项目(2018T3002)。
关键词
高镁脱硫废水
零排放
化学软化
desulfurization wastewater contains high magnesium
zero discharge
chemical softening
