Flow intake control using dry-weather forecast

Q2 Engineering

Drinking Water Engineering and Science Pub Date : 2017-08-15 DOI:10.5194/DWES-10-69-2017

O. Icke, K. V. Schagen, Christian Huising, J. Wuister, Edward J.H. van Dijk, Arjan Budding

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引用次数: 3

Abstract

Abstract. Level-based control of the influent flow causes peak discharges at a waste water treatment plant (WWTP) after rainfall events. Furthermore, the capacity of the post-treatment is in general smaller than the maximum hydraulic capacity of the WWTP. This results in a significant bypass of the post-treatment during peak discharge. The optimisation of influent flow reduces peak discharge, and increases the treatment efficiency of the whole water cycle, which benefits the surface water quality. In this paper, it is shown that half of the bypasses of the post-treatment can be prevented by predictive control. A predictive controller for influent flow is implemented using the Aquasuite ® Advanced Monitoring and Control platform. Based on real-time measured water levels in the sewerage and both rainfall and dry-weather flow (DWF) predictions, a discharge limitation is determined by a volume optimisation technique. For the analysed period (February–September 2016) results at WWTP Bennekom show that about 50 % of bypass volume can be prevented. Analysis of single rainfall events shows that the used approach is still conservative and that the bypass can be even further decreased by allowing discharge limitation during precipitation.

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利用干旱天气预报控制流量

摘要基于水位的进水流量控制会在降雨事件后导致废水处理厂（WWTP）的峰值排放。此外，后处理的容量通常小于污水处理厂的最大水力容量。这导致在峰值放电期间显著绕过后处理。进水流量的优化降低了洪峰流量，提高了整个水循环的处理效率，有利于地表水的水质。本文表明，通过预测控制可以防止后处理的一半旁路。进水流量预测控制器采用Aquasuite®高级监控平台实现。根据污水系统中实时测量的水位以及降雨和干燥天气流量（DWF）预测，通过体积优化技术确定流量限制。在分析期间（2016年2月至9月），污水处理厂Bennekom的结果显示 % 可以防止旁路体积的减小。对单次降雨事件的分析表明，所使用的方法仍然是保守的，并且通过允许降雨期间的流量限制，可以进一步减少旁路。

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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