An Application of Anaerobic-Aerobic Combined Bioreactor Efficiency in COD Removal

Q3 Social Sciences

Geomatics and Environmental Engineering Pub Date : 2023-04-14 DOI:10.7494/geom.2023.17.4.5

Rezvan Kavousi, S. M. Borghei

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Abstract

Over the past few decades, anaerobic-aerobic wastewater treatment systems have been widely used in industrial and municipal wastewater treatment. This study was conducted to examine the effects of combined anaerobic-aerobic bioreactors in the removal of chemical oxygen demands (COD) while reducing phosphate concentrations in synthetic wastewater. In this project, a bioreactor with the dimensions of 10 cm × 10 cm × 80 cm with respective Kaldnes packing ratios of 90 and 30% for the anaerobic and aerobic sections was designed. A combined anaerobic-aerobic reactor’s structure made changing hydraulic retention times only possible by adjusting the volume of its aerobic and anaerobic sections. In the first case, the anaerobic and aerobic sections of the reactor occupied 30 and 50 cm of its height, respectively. The height of the anaerobic section decreases to 12.5 cm in the second case. In aerobic and anaerobic sections, pH was within a neutral range, temperature was 37°C. MLSS (mixed liquor suspended solids) was 1220 and 1030 mg/L, and attached growth was 743 and1190 mg/L respectively. In order to evaluate COD in the wastewater, three different initial phosphorus concentrations were tested: 12.8, 32.0 and 44.8 mg/L, as well as four COD: 500, 1000, 1200 and 1400 mg/L. Considering the results, COD removal is greater than 80% when the valve 2 is in the anaerobic section outlet regardless of the concentration of phosphate. In this case, the best result is for inlet COD of 500, where the reactor can eliminate more than 90%. When the COD concentration reaches 1000 to 1400 ppm, the reactor’s COD removal efficiency declines to 60%.

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厌氧-好氧联合生物反应器在COD去除中的应用

在过去的几十年中，厌氧-好氧废水处理系统在工业和城市污水处理中得到了广泛的应用。本研究旨在考察厌氧-好氧联合生物反应器在去除化学需氧量(COD)的同时降低合成废水中磷酸盐浓度的影响。本项目设计了一个尺寸为10 cm × 10 cm × 80 cm的生物反应器，厌氧段和好氧段的卡尔德斯填料比分别为90和30%。厌氧-好氧组合反应器的结构使得只有通过调整好氧段和厌氧段的体积才能改变水力滞留时间。在第一种情况下，反应器的厌氧段和好氧段分别占其高度的30和50厘米。在第二种情况下，厌氧段的高度降低到12.5 cm。在好氧和厌氧切片中，pH值在中性范围内，温度为37℃。混液悬浮物浓度为1220和1030 mg/L，附着生长浓度为743和1190 mg/L。为了评价废水中的COD，测试了3种不同初始磷浓度:12.8、32.0和44.8 mg/L，以及4种COD: 500、1000、1200和1400 mg/L。综上所述，无论磷酸盐浓度如何，当阀2位于厌氧段出口时，COD去除率均大于80%。在这种情况下，最好的结果是进口COD为500，反应器可以消除90%以上。当COD浓度达到1000 ~ 1400ppm时，反应器的COD去除率下降到60%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Geomatics and Environmental Engineering Earth and Planetary Sciences-Computers in Earth Sciences

CiteScore

2.30

自引率

0.00%

发文量