CEE 447: Groundwater Hydraulics(Elective Course for a BSEnvE degree)
Description of well hydraulics in single and multiple well systems.
Determination of aquifer parameters from pumping tests. Use of computer
models to predict effects on water table of multiple well systems.
Lecture 3 hours; 3 credits.
Prerequisite
CEE 340 (Hydraulics and Water Resources)
Textbook(s) and/or Other Required Material
Printed Course Handouts
Reference
Groundwater Resource Evaluation, by Walton, W. C. McGraw-Hill Book
Co. 1970
Groundwater Hydrology and Hydraulics, by McWhorter, D. and Sunada, D.
K., Water Resources Publications, 1970
Course Objectives
Students completing this course successfully will be able to
understand hydraulics of water flow in porous media,
determine steady and unsteady drawdowns due to multiple wells in
confined and unconfined aquifers.
design and analyze data from pumping tests to determine aquifer
characteristics.
Design production well,
Perform seepage calculations,
Determine extent of salt water intrusion in coastal aquifers
Use a computer model for determining feasible well spacing and
pumping schedules in composite aquifers.
Topics Covered
Fundamentals of flow in porous media (7 hours)
Potential flow analysis of groundwater problems (8 hours)
Well hydraulics and analysis of field data (9 hours)
Stream-aquifer interactions (2 hours)
Salt water encroachment (3 hours)
Seepage through embankments (2 hours)
Finite difference formulation of groundwater flow (4 hours)
Computer modeling of composite aquifers (6 hours)
Class/Laboratory Schedule
Two 75-minute lecture sessions per week.
Computer Applications
Use of a composite aquifer computer 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
ability to apply knowledge in mathematics, physics, engineering
science, soil science, and fluid mechanics to environmental engineering
problems,
ability to develop design criteria to meet desired needs and to
design a environmental engineering system, component, or a process
satisfying these criteria,
ability to identify and formulate an engineering problem, to collect
and analyze relevant data, and to develop a solution,
ability to understand and appreciate the importance of professional
licensure and commitment to life-long learning,
ability to use modern engineering techniques, skills, and tools
including computer-based tools for environmental engineering analysis
and design,
knowledge of fundamentals of water supply and resources,
knowledge of fundamentals of environmental system modeling.
