include('abet_css_meta_tag.php'); ?>
include('abet_header_1.php'); ?>
CEE 440
include('abet_header_2.php'); ?>
Hydraulic Engineering
include('abet_header_3.php'); ?>
include('abet_summary_ce.php'); ?>
include('abet_course_description.php'); ?>
CEE 440: Hydraulic Engineering(Elective course for a BSCE degree)
Hydraulic transients; flow control structures; sediment transport;
computer analysis of hydraulic systems. Lecture 3 hours; 3 credits.
include('abet_prerequisite.php'); ?>
CEE 340 (Hydraulic and Water Resources)
include('abet_textbook.php'); ?>
Hydraulic Engineering, by Roberson, J. A., J. J. Cassidy and M.
H. Chaudhry, John Wiley and Sons, Inc., 1998.
include('abet_objective.php'); ?>
Students completing this course successfully will be able to
- calculate flow rates and pressure heads in branching and looped pumped pipelines
- calculate transient pressures at various points in a pipeline due to sudden valve
closure or pump stoppage
- use a water hammer computer program to determine the effects of valve closure
time on transient pressures in a pipeline
- design water hammer control measures, including surge tanks, discharge tanks
and air vessels
- analyze steady flow in open channel flows, including determination of flow
depths upstream of and within contractions in width
- sketch and calculate gradually varied open channel flow profiles
- design rigid boundary and erodible channels
- use the HEC-RAS computer model to calculate open channel flow profiles
- design culverts to carry a design discharge while meeting headwater requirements
- analyze spillways, including calculation of rating curves and sizing spillway
crests to carry a design discharge
include('abet_topic.php'); ?>
- Centrifugal pumps and pumped pipelines (5 hours)
- Unsteady closed conduit flow (6 hours)
- Water hammer computer models (2 hours)
- Water hammer control (3 hours)
- Design of pipelines (2 hours)
- Steady uniform open channel flow (3 hours)
- Steady non-uniform open channel flow (7 hours)
- Design of open channels (3 hours)
- Open channel flow computer model: HEC-RAS (4 hours)
- Analysis and design of culverts (4 hours)
- Spillways (3 hours)
include('abet_schedule.php'); ?>
Two 75-minute lecture sessions per week.
include('abet_computer.php'); ?>
Water hammer computer program
HEC-RAS
Excel spreadsheet (optional)
include('abet_lab.php'); ?>
None
include('abet_professional_component.php'); ?>
College-level mathematics and basic sciences: 0 credits
Engineering topics: 3 credits
General education: 0 credits
include('abet_program_outcome.php'); ?>
This course will enhance the student's
- ability to apply knowledge in mathematics, physics, and engineering science to
civil engineering problems,
- ability to develop design criteria to meet desired needs and to design a civil
engineering system, component, or a process to satisfy these criteria
- ability to identify and formulate an engineering problem, to collect and analyze
relevant data, and to develop a solution,
- ability to use modern engineering techniques, skills, and tools including
computer-based tools for civil engineering analysis and design,
- proficiency in environmental and water resources engineering.
include('abet_prepare_ce.php'); ?>
Laura J. Harrell
<lharrell@odu.edu>
include('abet_preparation_date_ce.php'); ?>
May 21, 2003
include('abet_bottom.php'); ?>