泻湖高强度污水处理的厌氧-好氧颗粒系统

Advances in Environmental Research Pub Date : 2016-09-01 DOI:10.12989/AER.2016.5.3.169

R. Hamza, O. T. Iorhemen, J. Tay

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引用次数: 12

摘要

本研究旨在确定厌氧-好氧组合颗粒污泥在泻湖系统中处理高强度废水(化学需氧量，COD>4000 mg/L)的可处理性。在实验室规模的曝气和不曝气间歇过程中模拟泻湖系统，接种剂量为0.4 g/L的干燥颗粒微生物。在厌氧批次中，直到第12天才达到25%的去除效率。在COD:N:P为100:4:1的条件下，经过14 d的好氧操作，sCOD去除率达到94%。在COD:N:P比为200:4:1时，厌氧-好氧序批处理12 d和2 d的sCOD去除率最高(96%)。顺序厌氧-好氧处理可实现泻湖系统中高强度废水的高效、低成本处理。

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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Anaerobic-aerobic granular system for high-strengthwastewater treatment in lagoons

This study aimed at determining the treatability of high-strength wastewater (chemical oxygen demand, COD>4000 mg/L) using combined anaerobic-aerobic granular sludge in lagoon systems. The lagoon systems were simulated in laboratory-scale aerated and non-aerated batch processes inoculated with dried granular microorganisms at a dose of 0.4 g/L. In the anaerobic batch, a removal efficiency of 25% was not attained until the 12th day. It took 14 days of aerobic operation to achieve sCOD removal efficiency of 94% at COD:N:P of 100:4:1. The best removal efficiency of sCOD (96%) was achieved in the sequential anaerobic-aerobic batch of 12 days and 2 days, respectively at COD:N:P ratio of 200:4:1. Sequential anaerobic-aerobic treatment can achieve efficient and cost effective treatment for high-strength wastewater in lagoon systems.

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Advances in Environmental Research

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