实现低磷排放的工厂性能和温室气体排放的评估

C. Debarbadillo, J. Barnard, M. Benisch, M. Falk
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引用次数: 2

摘要

该项目包括对设计为满足极低的流出总磷浓度的污水处理厂的操作做法和性能结果进行评估。随着0.1 mg/L及以下的严格磷限值变得越来越普遍,有必要更好地了解影响操作可持续性的因素,以满足这些限值。这项工作的重点是最大限度地从现有设施中学习,以帮助公用事业公司在达到必要的性能水平的同时更可持续地运营。利用11个水资源回收设施(WRRFs)的性能数据,对其除磷方法进行了评价。对总体性能、化学品消耗、进水特性、三级处理性能和资源回收率进行了评估。估算了各WRRF除磷组分的温室气体排放量。此外,还全面考察了几个研究要素,以帮助确定绩效的有效性和实际差异。这些项目包括化学投加地点和废弃化学固体对除磷作业的影响;原生污泥、回流活性污泥(RAS)和混合液悬浮物(MLSS)发酵对生物除磷(EBPR)的影响以及EBPR对厌氧消化生物固体脱水性能的影响。本文属于WERF研究报告丛书ISBN: 9781780406923(电子书)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Performance and Greenhouse Gas Emissions for Plants Achieving Low Phosphorus Effluents
This project included evaluation of operational practices and performance results for wastewater treatment plants designed to meet very low effluent total phosphorus (TP) concentrations. As stringent phosphorus limits of 0.1 mg/L and lower are becoming more common, there is a need to better understand factors impacting the sustainability of operating to meet these limits. This effort focuses on maximizing what can be learned from existing facilities to help utilities operate more sustainably while achieving the necessary level of performance. Phosphorus removal practices were evaluated using performance data for 11 water resource recovery facilities (WRRFs). Assessments were made of overall performance, chemical consumption, influent characteristics, tertiary treatment performance, and resource recovery. Greenhouse gas emissions were estimated for the phosphorus removal component of each WRRF. In addition, several research elements were examined at full scale to help establish the effectiveness and the practical differences in performance. These items include impacts of chemical dosing location and waste chemical solids on phosphorus removal operation; impacts of primary sludge, return activated sludge (RAS) and mixed liquor suspended solids (MLSS) fermentation on enhanced biological phosphorus removal (EBPR); and impacts of EBPR on anaerobically digested biosolids dewaterability. This title belongs to WERF Research Report Series ISBN: 9781780406923 (eBook)
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