H21J-1538
Characterizing the impact of spatiotemporal variations in stormwater infrastructure on hydrologic conditions

Tuesday, 15 December 2015
Poster Hall (Moscone South)
Tijana Jovanovic1, Alfonso Mejia1, Rebecca L Hale2 and Jorge A Gironas3, (1)Pennsylvania State University Main Campus, University Park, PA, United States, (2)University of Utah, Salt Lake City, UT, United States, (3)Pontifical Catholic University of Chile, Santiago, Chile
Abstract:
Urban stormwater infrastructure design has evolved in time, reflecting changes in stormwater policy and regulations, and in engineering design. This evolution makes urban basins heterogeneous socio-ecological-technological systems. We hypothesize that this heterogeneity creates unique impact trajectories in time and impact hotspots in space within and across cities. To explore this, we develop and implement a network hydro-engineering modeling framework based on high-resolution digital elevation and stormwater infrastructure data. The framework also accounts for climatic, soils, land use, and vegetation conditions in an urban basin, thus making it useful to study the impacts of stormwater infrastructure across cities. Here, to evaluate the framework, we apply it to urban basins in the metropolitan areas of Phoenix, Arizona. We use it to estimate different metrics to characterize the storm-event hydrologic response. We estimate both traditional metrics (e.g., peak flow, time to peak, and runoff volume) as well as new metrics (e.g., basin-scale dispersion mechanisms). We also use the dispersion mechanisms to assess the scaling characteristics of urban basins. Ultimately, we find that the proposed framework can be used to understand and characterize the impacts associated with stormwater infrastructure on hydrologic conditions within a basin. Additionally, we find that the scaling approach helps in synthesizing information but it requires further validation using additional urban basins.