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Daylighting: Planning for Future Res...

Molnar, Leanna.

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Daylighting: Planning for Future Resilience Through Restoring the Past.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Daylighting: Planning for Future Resilience Through Restoring the Past./
作者:	Molnar, Leanna.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2023,
面頁冊數:	86 p.
附註:	Source: Masters Abstracts International, Volume: 84-07.
Contained By:	Masters Abstracts International84-07.
標題:	Urban planning. -
電子資源:	https://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30247017
ISBN:	9798368472584

Daylighting: Planning for Future Resilience Through Restoring the Past.
Molnar, Leanna.

Daylighting: Planning for Future Resilience Through Restoring the Past. - Ann Arbor : ProQuest Dissertations & Theses, 2023 - 86 p.

Source: Masters Abstracts International, Volume: 84-07.

Thesis (M.S.)--Pratt Institute, 2023.

This item must not be sold to any third party vendors.

In a densifying and urbanizing world, historical urban developers have not prioritized natural land conditions. Replacing natural landscapes with impervious surfaces was common practice throughout the nineteenth century, as was hardened infrastructure, including "culverts," a network of underground pipes actively conveying New York City's historic waterways. In combination, these conditions exacerbate stormwater flooding; rerouting water into underground culverts confines drainage capacity, concentrates flow, and increases water velocity-causing erosion and hydrogeographic changes. New York City's combined stormwater infrastructure system additionally increases the probability of inland flooding, especially for low-lying areas, basement apartments, and communities on reclaimed land. Nature-Based Solutions, including "Blue-Green Infrastructure" (BGI), that increase permeable surfaces and stormwater control, have become a crucial part of managing stormwater runoff at the source rather than expanding the conveyance capacity of the sewer system (which is very costly). Daylighting, a type of BGI, returns riverine systems to a more natural condition by removing culverts and recreating natural features and vegetation that can offer myriad ecological and community co-benefits. This thesis aims to address future flooding near the Fresh Creek Nature Reserve in Brooklyn due to poor drainage and overwhelmed stormwater infrastructure systems by investigating daylighting as a solution that maximizes co-benefits. The daylighting of Tibbetts Brook in the Bronx is investigated as the most comparable precedent for Fresh Creek. Using a modified version of the Co-MISDAL (Conceptual Model of Integrated Stream Daylighting) framework created by Delibas and Tezer (2017), this paper determines the feasibility of daylighting in a dense, urban neighborhood to provide recommendations for implementing daylighting in New York City.

ISBN: 9798368472584Subjects--Topical Terms:

2122922
Urban planning.
Subjects--Index Terms:

Community resilience

Daylighting: Planning for Future Resilience Through Restoring the Past.
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520 $a In a densifying and urbanizing world, historical urban developers have not prioritized natural land conditions. Replacing natural landscapes with impervious surfaces was common practice throughout the nineteenth century, as was hardened infrastructure, including "culverts," a network of underground pipes actively conveying New York City's historic waterways. In combination, these conditions exacerbate stormwater flooding; rerouting water into underground culverts confines drainage capacity, concentrates flow, and increases water velocity-causing erosion and hydrogeographic changes. New York City's combined stormwater infrastructure system additionally increases the probability of inland flooding, especially for low-lying areas, basement apartments, and communities on reclaimed land. Nature-Based Solutions, including "Blue-Green Infrastructure" (BGI), that increase permeable surfaces and stormwater control, have become a crucial part of managing stormwater runoff at the source rather than expanding the conveyance capacity of the sewer system (which is very costly). Daylighting, a type of BGI, returns riverine systems to a more natural condition by removing culverts and recreating natural features and vegetation that can offer myriad ecological and community co-benefits. This thesis aims to address future flooding near the Fresh Creek Nature Reserve in Brooklyn due to poor drainage and overwhelmed stormwater infrastructure systems by investigating daylighting as a solution that maximizes co-benefits. The daylighting of Tibbetts Brook in the Bronx is investigated as the most comparable precedent for Fresh Creek. Using a modified version of the Co-MISDAL (Conceptual Model of Integrated Stream Daylighting) framework created by Delibas and Tezer (2017), this paper determines the feasibility of daylighting in a dense, urban neighborhood to provide recommendations for implementing daylighting in New York City.
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