Developing Design Storms - MSOE
Milwaukee School of Engineering
Problem Statement
Flooding is a hazard in many parts of the world. In the Midwest, the terrain is often glaciated with minimal natural slope to support efficient drainage in areas. Flooding is common in urban areas where runoff from rainfall quickly accumulates in streams and cannot drain fast enough. A flash flood is a sudden and rapid rise in stream water depth resulting from heavy, localized rainfall. With a growing population, developing neighborhoods in terrain susceptible to flash floods has become more common and therefore increased the potential for damage to private property and public infrastructure.
Civil Engineers are frequently required to design flood protection infrastructure to protect people and property from the impacts of flash flooding. This module is based on a case study of a flood protection project in the Milwaukee, Wisconsin area.
Module Overview
In this module you will use the engineering design process to design a detention basin for use in protecting an area of urban development from flooding. In doing so, you will learn about specific topics in hydrology.
Topics Covered
Precipitation Statistics, Hyetographs and Design Storms
Pre-requisites
While each of the following mini-modules have been created as a stand-alone learning experience, we recommend implementing these modules in the following order for a comprehensive coverage of these topics:
1) Developing Design Storms - MSOE (CV-310)
2) Quantifying Direct Runoff - MSOE (CV-310-2)
3) Developing Storm Hydrographs and Storage Routing - MSOE (CV-310-3)
Learning Objectives
At the end of this case study, you should be able to describe and implement the steps involved in: developing a design storm hyetograph
This will be accomplished through activities within each section. Results from each activity will be recorded in specified results templates. The results templates for each activity can be found at the beginning of each activity. The results templates are organized such that results from one activity can easily be used in successive activities.
Course Authors
Emad Habib, PhD, PE
University of Louisiana at Lafayette. Contact: habib@louisiana.edu
modified by William Gonwa, PhD, PE
Milwaukee School of Engineering. Contact: gonwa@msoe.edu
Target Audience
Junior Water Resources Engineering Courses
Tools Needed
Computer with access to Internet and Excel
Course Sharing and Adaptation
This course is available for export by clicking the "Export Link" at the top right of this page. If you are an Instructor seeking the answer keys, please contact the course creators using your official University email account.
Expected Total Hours
A student could expect to complete this module with approximately 6 work hours.