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电场预处理强化微藻处理猪场废水的效果优化研究 被引量:8

Study on the optimization of the electric field pretreatment for enhanced microalgae treatment of pig farm wastewater
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摘要 近年来,基于微藻的废水处理技术受到越来越多的关注,但猪场废水所具有的高色、高浊、高盐等水质特点限制了微藻的处理效果和生长情况.为解决该问题,本研究考虑采用电场处理技术与微藻废水处理相结合的思路,对猪场废水厌氧消化出水进行深度处理.先比较4种不同阳极材料(石墨、铝、不锈钢、钛)的废水预处理效果,再进一步考察各组电场预处理对后续微藻废水处理效果和生长情况的影响.结果表明:不锈钢组和铝组对色度和浊度均表现出了较好的去除效果(92.44%和83.72%;99.83%和99.74%).此外,经电场预处理后的微藻废水处理效果和生长情况均有明显的提升,其中不锈钢组和铝组最终生物量分别达到2.22、1.89 g·L^(-1),远高于对照的原水组.而不锈钢组和铝组中的叶绿素a含量浓度分别增至接种时的11.48倍和9.89倍.这说明将电场预处理与微藻废水处理相结合,可以有效提高污染物去除效果,同时获得更大的有价生物质资源的产量,实现更好的技术经济性和可行性,为该工艺的推广应用提供理论基础和技术支撑. Microalgae-based wastewater treatment process has aroused lots of attentions in recent years.However,piggery wastewater with characteristics of high color,turbidity and salinity limits the treatment efficiency and growth of microalgae.In this study,electric field was combined with microalgae treatment for piggery wastewater treatment to solve this issue.The wastewater treatment efficiency of electric field pretreatment using four different anode materials(graphite,aluminum,stainless-steel and titanium)were compared.Then the pretreated wastewater of four groups were further treated by microalgae to investigate the influence of electric field on the performance and growth of microalgae.The results show that stainless steel and aluminum exhibited excellent removal efficiencies for both colourity and turbidity(92.44%and 83.72%,99.83%and 99.74%,respectively).Moreover,the electric field treated wastewater showed significant enhancement for microalgae treatment efficiency.The final biomass yield of stainless-steel group and aluminum group reached as high as 2.22 g·L^(-1)and 1.89 g·L^(-1),respectively,which are much higher than that of the original group.Besides,the chlorophyll a content of stainless-steel group and aluminum group also increased by11.48 and 9.89 times,respectively.These results indicate that the combination of electric field pretreatment and microalgae-based wastewater treatment could significantly enhance the pollutants removal,while harvesting more valuable biomass resources,which also improve the technological economical feasibility.This study also supports the further application of the combined electric field pretreatment and microalgae-based wastewater treatment process.
作者 孙盛进 徐慧 卓梦琼 张哲 丁梓尧 郭远涛 肖丛亮 辛佳期 李昆 SUN Shengjin;XU Hui;ZHUO Mengqiong;ZHANG Zhe;DING Ziyao;GUO Yuantao;XIAO Congliang;XIN Jiaqi;LI Kun(School of Resource Environment and Chemical Engineering,Nanchang University,Key Laboratory of Poyang Lake Environment and Resource Utilization,Ministry of Education,Nanchang 330038;State Key Laboratory of Environmental Aquatic Chemistry,Research Center for Eco-Environmental Sciences,Chinese Academy of Sciences,Beijing 100085)
出处 《环境科学学报》 CAS CSCD 北大核心 2021年第8期3166-3174,共9页 Acta Scientiae Circumstantiae
基金 国家自然科学基金(No.51768043) 中国博士后科学基金(No.2017M622106) 江西省青年科学基金(No.20171BAB216037) 江西省教育厅科研基金(No.GJJ160214)。
关键词 电场预处理 微藻 猪场废水 深度处理 资源循环 electric field pretreatment microalgae piggery wastewater advanced treatment resource recycling
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