An analytical approach to ascertain saturation-excess versus infiltration-excess overland flow in urban and reference landscapes
Autor: | Aditi S. Bhaskar, Ryan D. Stewart, Dustin L. Herrmann, Anthony J. Parolari, L. A. Schifman, Jinshi Jian, William D. Shuster |
---|---|
Rok vydání: | 2020 |
Předmět: |
Hydrology
010504 meteorology & atmospheric sciences Stormwater 0207 environmental engineering Storm 02 engineering and technology 01 natural sciences Article Infiltration (hydrology) Hydraulic conductivity Soil water Environmental science Soil horizon Precipitation 020701 environmental engineering Surface runoff 0105 earth and related environmental sciences Water Science and Technology |
Zdroj: | Hydrol Process |
ISSN: | 0885-6087 |
Popis: | Uncontrolled overland flow drives flooding, erosion, and contaminant transport, with the severity of these outcomes often amplified in urban areas. In pervious media such as urban soils, overland flow is initiated via either infiltration-excess (where precipitation rate exceeds infiltration capacity) or saturation-excess (when precipitation volume exceeds soil profile storage) mechanisms. These processes call for different management strategies, making it important for municipalities to discern between them. In this study, we derived a generalized one-dimensional model that distinguishes between infiltration-excess overland flow (IEOF) and saturation-excess overland flow (SEOF) using Green-Ampt infiltration concepts. Next, we applied this model to estimate overland flow generation from pervious areas in 11 U.S. cities. We used rainfall forcing that represented low- and high-intensity events and compared responses among measured urban versus predevelopment reference soil hydraulic properties. The derivation showed that the propensity for IEOF versus SEOF is related to the equivalence between two nondimensional ratios: (a) precipitation rate to depth-weighted hydraulic conductivity and (b) depth of soil profile restrictive layer to soil capillary potential. Across all cities, reference soil profiles were associated with greater IEOF for the high-intensity set of storms, and urbanized soil profiles tended towards production of SEOF during the lower intensity set of storms. Urban soils produced more cumulative overland flow as a fraction of cumulative precipitation than did reference soils, particularly under conditions associated with SEOF. These results will assist cities in identifying the type and extent of interventions needed to manage storm water produced from pervious areas. |
Databáze: | OpenAIRE |
Externí odkaz: |