摘要
实验室和工业实践中表明,活性炭吸附、硫酸碳化和高锰酸钾氧化对此类恶臭物质的处理具有一定的效果,100g活性炭对异戊烯醇的最大吸附量可达到36g,100mL98%的硫酸可处理异戊烯醇30g;在采取冷凝回收、活性炭吸附和硫酸碳化工程措施后,臭气的排放浓度低于100(无量纲),厂界臭气浓度低于20,可稳定地实现达标排放。
Results of experiment and technical practice indicated active carbon adsorption, sulphuric acid carbonization and potassium permanganate oxidation have some good effect on malodor pollutants. Active carbon of 100g can adsorb 36g of 3,3-dimethylatlyl alcohol phenol, while sulphuric acid of 100mL(98%) can remove 30g. Effluent gas will be reduced to no more than 100(dimensionless) and boundary concentration less than 20 by taking measures such as condensation reclamation, active carbon absorption and sulphuric acid carbonization, which can meet the discharge criteria.
出处
《环境科学与技术》
CAS
CSCD
2003年第B12期72-74,共3页
Environmental Science & Technology
关键词
贲亭酸甲酯
恶臭
排放系数
综合处理
methyl 3, 3-dimethyl pentenoate
malodour
discharge coefficient
comprehensive treatment
