Article: The utility of HEC-1 flood hydrograph package in distributed flow guided area drainage master plan discharges verification in a desert environment Journal: International Journal of Hydrology Science and Technology (IJHST) 2016 Vol.6 No.3 pp.199 - 225 Abstract: Flood control management and policies that formed the foundation of the Upper New River Area Drainage Master Plan Development in Phoenix, Arizona, USA, took into account engineering, environmental, landscape, social, and economic considerations. In this engineering-in-practice focused paper, the authors verify the accuracy of the existing condition 100-year, 24-hour rainfall event design discharges by superimposing them on the existing probabilistic discharge envelope curves derived for the region by various US Government agencies over the last five decades. The US Army Corps of Engineers' HEC-1 flood hydrograph package has been the choice of the local flood control district since 1987 when the first flood insurance study (FIS) was conducted on the catchment. The HEC-1 model results accorded well with those on the various discharge envelope curves originally derived from gauged catchments. The computed peak discharges were adjusted using the results from a two-dimensional FLO-2D hydraulic model to account for the existing flow breakout locations and man-made storage areas in the post-FIS in-channel sand and gravel mine pits. The approach was a novel and timely undertaking by the modellers in support of robust flood control alternatives development. Inderscience Publishers - linking academia, business and industry through research

Title: The utility of HEC-1 flood hydrograph package in distributed flow guided area drainage master plan discharges verification in a desert environment

Authors: R. Michael Gerlach; Iftekhar Ahmed; Natalie D. Beckman; Abdullah Karim

Addresses: Stantec Consultants, Inc., 8211 S. 48th Street, Phoenix, Arizona 85044, USA ' Prairie View A&M University, P.O. Box 519, MS 2510, Prairie View, Texas 77446, USA ' Stantec Consultants, Inc., 8211 S. 48th Street, Phoenix, Arizona 85044, USA ' Prairie View A&M University, P.O. Box 519, MS 2510, Prairie View, Texas 77446, USA

Abstract: Flood control management and policies that formed the foundation of the Upper New River Area Drainage Master Plan Development in Phoenix, Arizona, USA, took into account engineering, environmental, landscape, social, and economic considerations. In this engineering-in-practice focused paper, the authors verify the accuracy of the existing condition 100-year, 24-hour rainfall event design discharges by superimposing them on the existing probabilistic discharge envelope curves derived for the region by various US Government agencies over the last five decades. The US Army Corps of Engineers' HEC-1 flood hydrograph package has been the choice of the local flood control district since 1987 when the first flood insurance study (FIS) was conducted on the catchment. The HEC-1 model results accorded well with those on the various discharge envelope curves originally derived from gauged catchments. The computed peak discharges were adjusted using the results from a two-dimensional FLO-2D hydraulic model to account for the existing flow breakout locations and man-made storage areas in the post-FIS in-channel sand and gravel mine pits. The approach was a novel and timely undertaking by the modellers in support of robust flood control alternatives development.

Keywords: HEC-1; FLO-2D; channel forms; gravel mine pits; discharge envelope curves; flood hydrographs; distributed flow; drainage master planning; discharge verification; desert environments; deserts; flood management; flood control; flooding; USA; United States; hydraulic modelling; hydrology.

DOI: 10.1504/IJHST.2016.077397

International Journal of Hydrology Science and Technology, 2016 Vol.6 No.3, pp.199 - 225

Received: 21 Jul 2015
Accepted: 07 Nov 2015
Published online: 29 Jun 2016 *

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Title: The utility of HEC-1 flood hydrograph package in distributed flow guided area drainage master plan discharges verification in a desert environment

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