Iridra Srl, Via La Marmora 51, 50121 Florence, Italy.
IMT Atlantique Bretagne-Pays de Loire, Department of Energy Systems and Environment, 44307 Nantes, France; INRAE, REVERSAAL, F-69625, Villeurbanne, France.
Sci Total Environ. 2020 Jul 20;727:138618. doi: 10.1016/j.scitotenv.2020.138618. Epub 2020 Apr 16.
Combined sewer overflows (CSOs) are a major source of surface water pollution and degradation. This is particularly visible where sewage collection with combined sewer and centralized treatment are well established, such as in Europe and North America: an overwhelming number of surface water bodies are in insufficient status of ecology, hydrology and physico-chemical parameters. Therefore, several countries have started implementing constructed wetlands (CWs) as mainstream on-spot treatment. This paper summarizes the main design approaches that can be adopted. We identified eight different schemes for the implementation of CSO-CWs, based on our international experience and documented by a literature analysis. The performance review includes conventional water quality parameters, as well as pathogen and emergent contaminant removal. Furthermore, modelling tools for advanced design and for understanding a wide applicability of these green infrastructures are presented. This paper also provides a review on other side benefits offered by the adoption of Nature-Based Solutions for CSO treatment, such as ecosystem services, and the most common issues related to their operation and maintenance. Our analysis has produced a list of key factors for design and operation, all derived from full-scale installations in operation up to more than ten years.
合流制污水溢流(CSO)是地表水环境污染和退化的主要来源。在污水收集与合流制和集中处理相结合的地区,这种情况尤为明显,如欧洲和北美:大量的地表水生态、水文和理化参数状况不佳。因此,一些国家已经开始采用人工湿地(CWs)作为主流的现场处理方法。本文总结了可以采用的主要设计方法。我们根据国际经验和文献分析,确定了八种不同的 CSO-CWs 实施方案。性能评估包括常规水质参数以及病原体和新兴污染物的去除。此外,还介绍了用于高级设计和理解这些绿色基础设施广泛适用性的建模工具。本文还回顾了采用基于自然的解决方案进行 CSO 处理带来的其他好处,如生态系统服务,以及与它们的运行和维护相关的最常见问题。我们的分析产生了设计和运行的关键因素列表,这些因素均源自运行超过十年的全规模安装。
