雨水生物过滤器媒体性能更新WinSLAMM:单位过程组件,示例计算和模型使用的数据摘要

IF 1.2 Q4 WATER RESOURCES
R. Pitt, S. Clark, R. Sileshi, J. Voorhees
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引用次数: 1

摘要

本文重点介绍了在雨水生物过滤器中对污染物滞留过程的各个方面进行建模所需的具体信息。目前,WinSLAMM(源加载和管理模型)的更新是建立在实验室和现场研究的扩展数据基础上的,这些数据主要由皮特在塔斯卡卢萨阿拉巴马大学的研究小组、宾夕法尼亚州立大学哈里斯堡分校的雪莉·克拉克博士的研究小组、威斯康星州自然资源部和美国地质调查局(DNR/USGS)进行。这些过程和数据可用于人工计算或其他模型。这些数据源和相关统计分析的广泛摘要,加上额外的参考资料,包括在PV &协会的在线白皮书中。的网站。进行这些测试是为了提供模拟生物过滤器性能所需的细节,特别是侧重于:预测通过介质的处理流量的方法;颗粒和相关颗粒结合污染物保留几种颗粒尺寸;沉积物堵塞、污染物突破造成的维护需求;并保留可过滤的污染物。这个多年的研究项目还研究了生物过滤器性能文献中不常见的问题,例如由于含有大量细颗粒的介质上盐负荷过多而导致的故障,与介质压实有关的问题,以及先前从介质中捕获的物质的浸出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stormwater Biofilter Media Performance Updates for WinSLAMM: Data Summary for Unit Process Components, Example Calculations and Model Use
This paper focuses on specific information needed to model various aspects of the pollutant retention processes in stormwater biofilters. Updates currently being incorporated in WinSLAMM (Source Loading and Management Model) are building on expanded data from laboratory and field research mostly conducted by Pitt’s research group at the University of Alabama, Tuscaloosa, by Dr. Shirley Clark’s research group at Penn State–Harrisburg, and the Wisconsin Department of Natural Resources and the U.S. Geological Survey (DNR/USGS). These processes and data can be used in manual calculations or other models. Extensive summaries of these data sources and associated statistical analyses, plus additional references, are included in an online white paper available at the PV & Assoc. website. These tests were conducted to provide the details needed for modeling the performance of biofilters, specifically focusing on: methods to predict treatment flow rates through the media; particulate and associated particulate bound pollutant retention for several particle sizes; maintenance requirements due to sediment clogging and pollutant breakthrough; and retention of filterable pollutants. This multiyear research program also examined issues not commonly described in the biofilter performance literature, such as failure due to excessive salt loadings on media having large amounts of fines, problems associated with compaction of the media, and leaching of previously captured material from the media.
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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
8
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