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Decentralized Stormwater Reuse: A Sustainable Solution in The BronxAbstractDecentralized stormwater reuse is emerging as a sustainable approach to mitigate urban runoff issues while promoting resource efficiency. This abstract highlights the benefits of such a decentralized system, exemplified by the Arbor House Affordable Housing complex project in the Bronx. The Arbor House project successfully deployed a real-time stormwater management solution to address the challenge of combined sewer overflow (CSO) in New York City. By capturing and storing rainwater in cisterns, the system optimizes water use for rooftop urban agriculture and minimizes untreated wastewater discharges into local waterways. Key advantages of decentralized stormwater reuse, as demonstrated by this project, include: Reducing CSO Impact: Decentralized systems like the one at Arbor House significantly reduce CSO discharges by retaining and reusing rainwater. This proactive approach aligns with sustainability goals and helps protect aquatic ecosystems. Maximizing Resource Efficiency: The captured rainwater serves as a valuable resource for irrigation, reducing reliance on potable water sources and conserving this precious resource for essential needs. Environmental Compliance: The project's monitoring and reporting capabilities ensure compliance with environmental regulations, facilitating transparency and accountability in stormwater management. Community Benefits: Decentralized stormwater reuse projects often have the added benefit of enhancing community well-being. In Arbor House, the reclaimed water supports urban agriculture, contributing to local food production and quality of life. Scalability and Adaptability: Decentralized systems are versatile and can be scaled to suit the needs of various developments, making them a flexible solution for urban areas facing runoff challenges. Decentralized stormwater reuse, as demonstrated by this project, offers a sustainable solution to urban runoff challenges. It reduces CSO impact, optimizes resource efficiency, ensures environmental compliance, enhances community well-being with urban agriculture, and provides scalability for diverse urban environments. This approach sets a sustainable precedent for global urban water management. The Arbor House Affordable Housing complex project goes beyond stormwater management; it actively addresses equity and inclusion by providing affordable housing, supporting urban agriculture, creating jobs, mitigating environmental challenges, engaging the community, and promoting sustainable practices. These efforts contribute to a more equitable and inclusive urban environment. The Arbor House project exemplifies the transformative potential of decentralized stormwater reuse, offering a sustainable blueprint for urban water management. As cities worldwide grapple with stormwater issues and water scarcity, this approach showcases the feasibility and benefits of implementing decentralized systems to achieve water resilience and environmental stewardship. Learning Objectives: 1. Explore the concept of decentralized stormwater reuse and its significance in addressing urban runoff challenges and promoting resource efficiency. 2. Examine the project as a real-world example of successful stormwater reuse, focusing on its key benefits and impact on sustainability. Recognize the role of decentralized stormwater reuse in enhancing community well-being, promoting urban agriculture, and creating opportunities for local residents. 3. Assess the versatility of decentralized systems and their potential applicability in various urban settings, emphasizing their flexibility and adaptability. 4. Consider the broader implications of decentralized stormwater reuse as a sustainable solution with global relevance for urban water management and environmental stewardship.This paper was presented at the WEF Collection Systems and Stormwater Conference, April 9-12, 2024.SpeakerMarchese, DaytonPresentation time10:45:0011:15:00Session time10:45:0011:45:00SessionStormwater ReuseSession number04Session locationConnecticut Convention Center, Hartford, ConnecticutTopicReuse, Smart Cities, Stormwater Capture and Use, Stormwater Case Study/Application, Stormwater Control Measure, Stormwater Management Design And Analysis, Utility of the FutureTopicReuse, Smart Cities, Stormwater Capture and Use, Stormwater Case Study/Application, Stormwater Control Measure, Stormwater Management Design And Analysis, Utility of the FutureAuthor(s)Marchese, DaytonAuthor(s)D. Marchese1Author affiliation(s)OptiRTC 1SourceProceedings of the Water Environment FederationDocument typeConference PaperPublisherWater Environment FederationPrint publication date Apr 2024DOI10.2175/193864718825159410Volume / Issue Content sourceCollection Systems and Stormwater ConferenceCopyright2024Word count10
Dayton Marchese (Wed,) studied this question.