Core Information

Course CEE 340 Hydraulics and Water Resources Lecture 3 hours; 3 credits Spring Semester, ODU Campus Session Spring Session #1 Instructor Dr. Laura Harrell, Assistant Professor, CEE, KH 130B Phone (757) 683-6052 e-mail <LHarrell@odu.edu>

Textbook and References

Required Textbook: Linsley, R. K. et al,Water Resources Engineering 4th edition, McGraw-Hill Publishing Co., 1992. References: Munson, Bruce R. et al, Fundamentals of Fluid Mechanics, 3rd edition, John Wiley and Sons, Inc., 1998. Hwang, Ned, Fundamentals of Hydraulic Engineering Systems, 2nd edition, Prentice Hall, Inc., 1987. McCuen, Richard H., Hydrologic Analysis and Design, Prentice Hall, 1998.

Grading Policy

The best of the following combinations will be used to determine the course grade for each individual. Combination Test 1 (%) Test 2 (%) Test 3 (%) Design Projects (%) Final (%) Total (%) 1 15 15 15 15 40 100 2 20 20 20 10 30 100

Attendance Policy

Attendance of lectures is not required, but is strongly encouraged as it affects the quality of learning and performance on exams. Your presence is required for all tests and exams.

Honor Code

Each test and exam must include the words "honor pledge" written next to your signature, indicating your adherence to the university honor code. You may work with others only on homework assignments.

Tentative Course Outline

CEE 340 CEE Hydraulics and Water Resources Lecture 3 hours; 3 credits ODU Campus Spring Session #1 Today is Week Class Topics [1] 1 Introduction [1] 2 Pipe Flow: Basic Principles, Continuity Equation, Energy Equation, Friction and Minor Losses [2] 3 Pipe Flow: Flow in Branching Pipes, Equivalent Pipes [2] 4 Pipe Flow: Pipe Networks [3] 5 Centrifugal Pump Characteristics, Affinity Laws, Net Positive Suction Head [3] 6 Pumped Lines [4] 7 Pumped Lines, Flow Regulating Valves [4] 8 Open Channel Flow: Physical Characteristics, Normal and Critical Depth [5] 9 Open Channel Flow: Energy Equation [5] 10 Open Channel Flow: Momentum Equation [6] 11 TEST 1 [6] 12 Open Channel Flow: Gradually Varied Flow [7] 13 Open Channel Flow: Hydraulic Jump [7] 14 Surface Flow Hydrology: Rainfall, Streamflow, Abstraction Index [8] 15 Surface Flow Hydrology: Rational Method, Unit Hydrograph Method [8] 16 Surface Flow Hydrology: Synthetic Unit Hydrographs *** *** SPRING BREAK *** *** SPRING BREAK [9] 17 Surface Flow Hydrology: Reservoir Routing [9] 18 Surface Flow Hydrology: Channel Routing [10] 19 TEST 2 [10] 20 Probability Concepts in Planning: Annual Flood Series, Recurrence Interval, Gumbel and Log Pearson Type III distributions [11] 21 Engineering Economics in Water Resources Planning [11] 22 Groundwater Hydraulics: Aquifer Classification, Basic Principles, Darcy's Law [12] 23 Groundwater Hydraulics: Steady and Unsteady Flow in Confined Aquifers [12] 24 Groundwater Hydraulics: Steady Unconfined Aquifer Well Hydraulics [13] 25 TEST 3 [13] 26 Groundwater Hydraulics: Unsteady Unconfined Aquifer Well Hydraulics, Multiple Wells [14] 27 Reservoirs: Physical Characteristics, Firm Yield and Capacity Selection [14] 28 Dams: Forces on Dams, Stability of Dams [15] 29 Review [15] 30 FINAL EXAM