Lab-scale optimization of propylene glycol removal from synthetic wastewater using activated sludge reactor

Amirreza Talaiekhozani; Sahand Jorfi; Mohamad Ali Fulazzaky; Mohanadoss Ponraj; M.Z. Abd Majid; Amir Hossin Navarchian; Mohammad Reza Talaie; Sonia Zare

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Lab-scale optimization of propylene glycol removal from synthetic wastewater using activated sludge reactor

机译：使用活性污泥反应器的实验室规模的合成废水去除丙二醇优化

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Propylene glycol (PG) is not a toxic matter. However, it can dramatically increase BOD of water resources and that is why removal of PG is important. Removal of PG in synthetic wastewater was studied in a continuous activated sludge pilot-scale reactor. The influence of various factors (pH, nitrogen source, COD and wastewater feed salinity (conductivity)) on micro-organism growth as a measure of removal was determined, and the optimum condition for maximizing this response was obtained using Taguchi experimental design method. Primary micro-organisms were obtained from the return sludge line of the Shahrak-Gharb wastewater treatment system located in the city of Tehran. The micro-organisms have been adapted to high organic loads during five stages in 119 days. The maximum PG removal efficiency was equal to 85%. In the selected range of levels, the best pH was equal to 8 and the influent COD was 1300 mg/L. The best nitrogen source was urea, and salinity was obtained equal to 8%.

机译：丙二醇（PG）不是有毒物质。但是，它可以大大增加水资源的日需量，这就是为什么去除PG很重要的原因。在连续活性污泥中试规模反应器中研究了合成废水中PG的去除。确定了各种因素（pH值，氮源，COD和废水进料盐度（电导率））对微生物生长的影响，以作为去除的量度，并使用Taguchi实验设计方法获得了使该响应最大化的最佳条件。初级微生物来自位于德黑兰市的Shahrak-Gharb废水处理系统的回流污泥生产线。在119天的五个阶段中，微生物已适应高有机负荷。 PG的最大去除效率等于85％。在所选的浓度范围内，最佳pH等于8，进水COD为1300 mg / L。最好的氮源是尿素，盐度等于8％。

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《Desalination and water treatment》 |2014年第21期|3585-3593|共9页
作者
Amirreza Talaiekhozani; Sahand Jorfi; Mohamad Ali Fulazzaky; Mohanadoss Ponraj; M.Z. Abd Majid; Amir Hossin Navarchian; Mohammad Reza Talaie; Sonia Zare;
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作者单位

Institute of Environmental and Water Resources Management (IPASA), Water Research Alliance, Universiti Teknologi Malaysia, UTM Skudai, 81310 Johor Bahru, Malaysia ,Department of Civil and Environmental Engineering, Jami Institute of Technology, Isfahan, Iran;

Department of Environmental Health, Tarbiat Modarres University, Tehran, Iran;

Institute of Environmental and Water Resources Management (IPASA), Water Research Alliance, Universiti Teknologi Malaysia, UTM Skudai, 81310 Johor Bahru, Malaysia;

Institute of Environmental and Water Resources Management (IPASA), Water Research Alliance, Universiti Teknologi Malaysia, UTM Skudai, 81310 Johor Bahru, Malaysia;

Faculty of Civil engineering, Construction Research Alliance, Universiti Teknologi Malaysia, UTM Skudai, 81310 Johor Bahru, Malaysia;

Faculty of Engineering, Department of Chemical Engineering, University of Isfahan, Isfahan, Iran;

Faculty of Engineering, Department of Chemical Engineering, University of Isfahan, Isfahan, Iran;

Department of Civil and Environmental Engineering, Jami Institute of Technology, Isfahan, Iran;

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正文语种 eng
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关键词
Propylene glycol; Wastewater treatment; Biological removal; Optimization; Taguchi method;

机译：丙二醇废水处理;生物去除;优化;田口法;

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1. The Effect of Organic Loading on Propylene Glycol Removal Using Fixed Bed Activated Sludge Hybrid Reactor [J] . M. Farzadkia, R. Rezaei Kalantary, G. Mousavi Chemical and Biochemical Engineering Quarterly . 2010,第2期

机译：固定床活化污泥杂化反应器中有机物负载量对脱除丙二醇的影响
2. The Effect of Organic Loading on Propylene Glycol Removal Using Fixed Bed Activated Sludge Hybrid Reactor [J] . M. Farzadkia, R. Rezaei Kalantary, G. Mousavi, Chemical and Biochemical Engineering Quarterly . 2010,第2010期

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3. TOC Removal of Diethylene Glycol Mono-n-hexyl Ether Synthetic Wastewater and 1,4-Butanediol Diglycidyl Ether Synthetic Wastewater with H2O2/UV in a Batch Reactor [J] . AKIRA HIRATA, SATOSHI TSUNEDA, WEI-JIE HOU Journal of Chemical Engineering of Japan . 2001,第10期

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7. The Effect of Organic Loading on Propylene Glycol Removal Using Fixed Bed Activated Sludge Hybrid Reactor [O] . Farzadkia M., Rezaei Kalantary R., Mousavi G., 2010

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Lab-scale optimization of propylene glycol removal from synthetic wastewater using activated sludge reactor

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