Enhancing Phosphorous Recovery in a Novel Biofilter System

Developing new techniques to remove and recover phosphorous simultaneously from wastewaters is very important for sustainable utilization of phosphorous resource and prevention of eutrophication. The feasibility of phosphorus bioaccumulation in a novel continuous alternating anaerobic /aerobic biofi...

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Bibliographic Details
Published in东华大学学报(英文版) Vol. 30; no. 2; pp. 132 - 136
Main Author 孙健 田晴 李方 王凤蕊 杨波
Format Journal Article
LanguageEnglish
Published College of Environmental Science and Engineering,Donghua University,Shanghai 201620,China 2013
Subjects
废物处理
技术
方法
环境保护
magnesium ammonia phosphate(MAP)
biofilter
phosphorous recovery
phosphorous bioaccumulation
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ISSN1672-5220

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Summary:Developing new techniques to remove and recover phosphorous simultaneously from wastewaters is very important for sustainable utilization of phosphorous resource and prevention of eutrophication. The feasibility of phosphorus bioaccumulation in a novel continuous alternating anaerobic /aerobic biofilter and benefits of such accumulation for its further recovery as magnesium ammonia phosphate (MAP) were studied. The system was operated for seven months and employed the atomic absorption spectrophotometer (AAS) method to analyze the distribution change of magnesium and calcium with phosphate in the biofilter during that period. The benefits of utilizing the biofilter system to accumulate phosphorous & magnesium and suppress calcium simultaneously to phosphorous recovery as MAP were explained with the aid of chemical equilibrium models. The improved phosphorus recovery from 42% to 82% was approved in the recovery experiments and the recovery products mainly as MAP were evidenced and characterized with scanning electron microscopy (SEM) . The study provides references for designing and operating the novel alternating anaerobic /aerobic biofilter for phosphorus bioaccumulation and recovery.
Bibliography:31-1920/N
SUN Jian, TIAN Qing, LI Fang, WANG Feng-rui, YANG Bo( College of Environmental Science and Engineering, Donghua University, Shanghai 201620, China)
Developing new techniques to remove and recover phosphorous simultaneously from wastewaters is very important for sustainable utilization of phosphorous resource and prevention of eutrophication. The feasibility of phosphorus bioaccumulation in a novel continuous alternating anaerobic /aerobic biofilter and benefits of such accumulation for its further recovery as magnesium ammonia phosphate (MAP) were studied. The system was operated for seven months and employed the atomic absorption spectrophotometer (AAS) method to analyze the distribution change of magnesium and calcium with phosphate in the biofilter during that period. The benefits of utilizing the biofilter system to accumulate phosphorous & magnesium and suppress calcium simultaneously to phosphorous recovery as MAP were explained with the aid of chemical equilibrium models. The improved phosphorus recovery from 42% to 82% was approved in the recovery experiments and the recovery products mainly as MAP were evidenced and characterized with scanning electron microscopy (SEM) . The study provides references for designing and operating the novel alternating anaerobic /aerobic biofilter for phosphorus bioaccumulation and recovery.
phosphorous bioaccumulation ; biofilter ; phosphorousrecovery; magnesium ammonia phosphate (MAP)
ISSN:1672-5220