Hydrologic Performance Monitoring of an Underdrained Low-Impact Development Storm-Water Management System |
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Authors: | Nancy-Jeanne Bachmann LeFevre David W. Watkins Jr. John S. Gierke Jennifer Brophy-Price |
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Affiliation: | 1Engineer, Emmons and Olivier Resources, Inc., Minneapolis, MN. E-mail: nlefevre@eorinc.com 2Associate Professor, Dept. of Civil and Environmental Engineering, Michigan Tech Univ., Houghton, MI 49931 (corresponding author). E-mail: dwatkins@mtu.edu 3Professor, Dept. of Geological and Mining Engineering and Science, Michigan Tech Univ., Houghton, MI 49931. E-mail: jsgierke@mtu.edu 4Wetland Studies and Solutions, Inc., Gainesville, VA. E-mail: jbrophy-price@wetlandstudies.com
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Abstract: | The use of low-impact development (LID) storm-water management facilities will grow with gains in understanding of their performance based on field tests. An innovative flow measurement system was designed and tested for monitoring of an interconnected system of underdrained LID components forming a site management strategy. Pressure transducers housed in stilling wells provided in-line flow measurements in pipes connecting the LID components. A combination of laboratory experiments, field measurements, and computer simulations was used to calibrate the flow measurement system to translate depth measurements to estimates of flow. The monitoring system is well suited for high-resolution temporal monitoring and provides important information for evaluating LID component performance. The measurement system is limited to open-channel flow, but calculations indicate that surcharge conditions are expected to occur at the case study site only under conditions more extreme than the 100-year storm event. |
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Keywords: | Stormwater management Urban areas Sustainable development |
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