GRADUATE COURSE PROGRAMS
The program of study for each student is formulated through consultation with a graduate advisor in the area of the student's major interests. There is no required set of courses at either the M.S. or Ph.D. level. However, M.S. students who do not elect to write a thesis are strongly encouraged to complete a special topics course, in which the students work individually with a faculty member on a problem of mutual interest.
There are four areas of study within EHHE that can be informally identified as described in the Introduction. The Civil and Environmental Engineering courses which are directly related to these are listed below. These courses could be part of either an M.S. or Ph.D. degree program.
Intermediate Level CE
Graduate Courses
CEE 434.
Environmental Systems Analysis, I
CEE 450. Surface
Hydrology
CEE 451. Environmental
Fluid Mechanics
CEE 452. Hydraulic Analysis
and Design
CEE 453. Urban Hydrology
and Hydraulics
CEE 454. Groundwater
CEE 491. Decision and
Risk Analysis
CEE 498. Civil
Engineering Special Topics
Advanced Level Graduate
CE Courses
CEE 535.
Environmental Systems II
CEE 534. Surface Water
Quality Modeling
CEE 550.
Hydroclimatology
CEE 551. Open-Channel
Hydraulics
CEE 555. Mixing in
Environmental Flows
CEE 557. Modeling of
Groundwater Flow and Solute Transport
CEE 559. Sediment
Transport
CEE 595 W. Environmental
Hydrology and Hydraulic Engineering Seminar
CEE 598 EH.
Environmental Hydrodynamics
CEE 598 SGW. Stochastic
Analysis of Ground Water Flow and Transport
CEE 598 SH. Stochastic
Hydrology
CEE 599. Thesis Research
TAM* 531. Inviscid Flow
TAM 532. Viscous Flow
TAM 537. Experimental
Fluid Mechanics
TAM 538. Turbulence
*Theoretical and Applied Mechanics
RELATED AREAS IN CIVIL AND ENVIRONMENTAL ENGINEERING
Graduate students enrolled in EHHE may wish to include studies in other related areas in the Department of Civil and Environmental Engineering. This may include individual courses or joint programs. Related areas of most interest are: Environmental Engineering and Science including water quality, wastewater treatment, environmental chemistry, hazardous waste management, aquatic ecology, environmental systems analysis, and air pollution. Geotechnical Engineering including soil mechanics, foundations, engineering geology, rock mechanics, and earth dams. Structural Engineering including structural analysis, design, behavior and reliability of structures including hydraulic structures.
Related CE Courses in
Environmental Engineering and Science
CEE 422.
Construction Cost Analysis
CEE
440. Solid and Hazardous Waste
CEE 430. Ecological
Quality Engineering
CEE 431. Biomonitoring
CEE 442. Environmental
Engineering Principles, Physical
CEE 437. Water Quality
Engineering
CEE 443. Environmental
Engineering Principles, Chemical
CEE 444. Environmental
Engineering Principles, Biological
CEE 432. Stream Ecology
CEE 472. Structural
Dynamics
CEE 483. Soil Mechanics
and Soil Behavior
CEE 484. Applied Soil
Mechanics
CEE 490. Computer
Methods
CEE 516. Systems
Methodology and Network Techniques
CEE
537. Water Quality Control Processes I
CEE 538. Water Quality
Control Processes II
CEE
572. Earthquake Engineering
CEE 581. Earth Dams
RELATED AREAS OUTSIDE CIVIL AND
ENVIRONMENTAL ENGINEERING
There are several departments within the University that have teaching
and research programs closely related to certain aspects of hydrosystems
engineering. The departments include Agricultural Engineering, Atmospheric
Sciences, Geography, Geology, and Theoretical and Applied Mechanics. Graduate
students enrolled in EHHE can take courses in these departments and can
participate in collaborative research projects projects with faculty in these
departments.
Agricultural
Engineering
ABE 456. Land and Water
Resources Engineering
ABE 459. Drainage and
Water Management
Atmospheric Sciences
ATMS 402.
Atmospheric Dynamics
ATMS 502. Numerical
Fluid Dynamics
ATMS 510. Precipitation
Physics
Chemical Engineering
CHBE 451.
Transport Phenomena
CHBE 522. Fluid
Dynamics
Civil and
Environmental Engineering
CEE
422. Construction Cost Analysis
CEE 472. Structural
Dynamics
CEE 483. Soil Mechanics
and Soil Behavior
CEE 484. Applied Soil
Mechanics
CEE 490. Computer
Methods
CEE 516. Systems
Methodology and Network Techniques CEE 572. Earthquake
Engineering
CEE 581. Earth
Dams and Related Problems
Geography
GEOG 404. Soil Geomorphology
GEOG 406.
Fluvial Geomorphology
GEOG 477.
Introduction to Remote Sensing
GEOG 479.
Advanced Geographic Information Systems
Geology
GEOL
401. Geomorphology
GEOL 470. Introduction
to Hydrogeology
GEOL 471. Oceanography
GEOL 550. Principles of
Engineering Geology
GEOL 570. Hydrogeology
GEOL 571. Geochemical
Reaction Analysis
Industrial Engineering
I E 510. Applied
Nonlinear Programming
I E 511. Integer
Programming
Landscape
Architecture
LA 550.
Environmental Impact Assessment
Law
LAW 616. Environmental
Law and Policy I
LAW 618. Natural
Resources
Mathematics
MATH
442. Intorduction to Partial Differential Equations
MATH 446. Applied
Complex Variables
MATH 455. Numerical
Methods for Partial Differential Equations
MATH 458. Numerical
Linear Algebra
MATH 459. Numerical
Approximation and Ordinary Differential Equations
MATH 461. Probability
Theory, I
MATH 463. Statistics
and Probability, I
MATH 464. Statistics
and Probability, II
MATH 465. Analysis of
Variance
MATH 466. Probability
Theory, II
MATH 468. Topics in
Applied Statistics
MATH 469. Methods of
Applied Statistics
MATH 498. Mathematical
Methods in Engineering
MATH 553. Partial
Differential Equations
MATH 561. Theory of
Probability, I
MATH 562. Theory of
Probability, II
MATH 556. Methods of
Mathematical Physics, I
MATH 557. Methods of
Mathematical Physics, II
MATH 564. Applied
Stochastic Processes
Natural Resources
and
Environmental
Science
NRES
475. Soil Microbiology
NRES 487. Soil
Chemistry
Theoretical and
Applied Mechanics
TAM
435. Intermediate Fluid Mechanics
TAM 536. Instability and
Transition to Turbulence
TAM 549. Asymptotic
Methods
TAM 574. Advanced
Finite-Element Methods
