The Ayamama River in Istanbul has been substantially degraded due to urbanization of the river corridor since the 1950s. Development throughout the watershed and climate change contribute to increasing severity of flash flooding events that threaten life and property in the floodplain. As the intensity, duration or frequency of extreme rainfall events continue to increase with climate change, it is imperative to reduce the risk of urban flooding to vulnerable assets. However, as Istanbul is a city famous for its density and lack of open space, finding suitable relocation sites for at-risk structures, while maintaining access to recreational amenities for the surrounding neighborhoods is a daunting task. The decommissioned Ataturk Airport provides a unique opportunity to re-imagine the utility of urban voids in helping cities adapt to increasing flood impacts. While the current airport redevelopment proposal includes the construction of a massive park and new cultural amenities, such a park lacks sufficient connective infrastructure to its surrounding neighborhoods and does little to alleviate the significant environmental challenges of its neighbor, the Ayamama River. In this paper, we explore the use of the decommissioned Ataturk Airport site to relieve development pressure from the Ayamama River by implementing a novel swap strategy for urban voids. The proposed swap strategy design methodology relocates, regenerates, and reconnects decommissioned infrastructures and degraded floodplains simultaneously. As the impacts of climate change become more prominent, this novel urban concept seeks to initiate a conversation amongst planners and designers around the use of decommissioned infrastructure and large-scale urban voids to help relieve pressure from urban floodplains. Meanwhile, it can make room for river restoration projects without decreasing the quality of life of relocated residents or negatively impacting relocated economic activities by identifying redevelopment sites in close proximity.