CEE 446
Urban Stormwater Hydrology


Department of Civil and Environmental Engineering
Kaufman Hall Room 135
Frank Batten College of Engineering and Technology
Old Dominion University
Norfolk, Virginia 23529-0241, USA
Tel) (757) 683-3753
Fax) (757) 683-5354

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Department of Civil and Environmental Engineering
Kaufman Hall Room 135
Frank Batten College of Engineering and Technology
Old Dominion University
Norfolk, Virginia 23529-0241, USA
Tel) (757) 683-3753
Fax) (757) 683-5354

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Required Courses for a BSEnvE Degree

Elective Courses for a BSEnvE Degree


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Course Description
CEE 446: Urban Stormwater Hydrology (Elective Course for a BSEnvE degree)

Storm rainfall analysis, design rainfall hyetographs, runoff calculation procedures, detention basins, use of mathematical models to analyze and design urban storm drainage systems. Lecture 3 hours; 3 credits.
Prerequisite
CEE 340 (Hydraulics and Water Resources)
Textbook(s) and/or Other Required Material
Urban Stormwater Hydrology Course-Pack compiled by A. O. Akan
Course Objectives
Students completing this course successfully will be able to

  1. perform a frequency analysis of rainfall data,
  2. construct a design storm hyetograph,
  3. determine the losses from rainfall using various methods,
  4. perform rainfall-runoff calculations using various methods,
  5. design (hydrological) storm inlets and storm sewers,
  6. design (hydrological) detention basins and infiltration structures
  7. calculate stormwater pollution and size BMP's for quality management, and
  8. use the HEC-HMS computer model for storm runoff calculations and detention basin design.
Topics Covered
  1. Introduction to urban hydrology (1 hr)
  2. Rainfall, probabilistic analysis, design storms (5 hours)
  3. Losses from rainfall (4 hours)
  4. Overland and channel flows in urban areas (4 hours)
  5. Urban watershed models (6 hours)
  6. Stormwater drainage structures (5 hours)
  7. Stormwater detention for quantity management (5 hours)
  8. Stormwater pollution (3 hours)
  9. Best Management Practices for water quality management (5 hours)
  10. HEC-HMS computer model (4 hours)
Class/Laboratory Schedule
Two 75-minute lecture sessions per week.
Computer Applications
HEC-HMS program
Optional use of spreadsheet program
Laboratory projects
None
Contribution of Course to Meeting the Professional Component
College-level mathematics and basic sciences: 0 credits Engineering topics: 3 credits General education: 0 credits
Relationship of Course to Program Outcomes
This course will enhance the student's

  1. ability to apply knowledge in mathematics, physics, fluid mechanics, engineering science, probability, and statistics to civil and environmental engineering problems,
  2. ability to develop design criteria to meet desired needs and to design a civil or environmental engineering system, component, or a process satisfying these criteria,
  3. ability to identify and formulate an engineering problem, to collect and analyze relevant data, and to develop a solution,
  4. ability to understand the impact of engineering solutions in a societal and global context,
  5. ability to understand and appreciate the importance of professional licensure and commitment to life-long learning,
  6. knowledge of current issues and awareness of emerging technologies,
  7. ability to use modern engineering techniques, skills, and tools including computer-based tools for civil and environmental engineering analysis and design
Prepared by
A. Osman Akan <oakan@odu.edu>
Date of Preparation
November 14, 2002