Fall Semester Classes for Undergraduates
CE 102 03 (2-3-0). Civil Engineering Principles I. (Fall)
Civil engineering profession, computer applications and programming related to civil engineering; introduction to surveying.
CE 104 01 (0-3-0). Surveying. (Fall) Prerequisite: M CC 125.
Surveying fundamentals for civil engineering applications; leveling, horizontal and vertical control, horizontal curves, instrument operation, errors.
CECC 202 03 (2-2-0). Civil Engineering Analysis I. (AUCC 2B) (Fall) Prerequisite: CE 103.
Theory and use of measurements and mapping: infrastructure basics and design tools; risks and statistical variabilities in civil engineering.
CE 260 03(3-0-0). Engineering Mechanics - Statics. (Fall) Prerequisite: M CC 160, PHCC 141.
Forces using vector notation; static equilibrium of rigid bodies; friction, virtual work, centroids, and moments of inertia.
CE 261 03(3-0-0). Engineering Mechanics - Dynamics. (Fall) Prerequisite: CE 260.
Kinematics and kinetics of particles and rigid bodies; concepts of work-energy and impulse-momentum; computer applications; vector notation.
CE 262 04(3-2-0). Engineering Mechanics. (Fall) Prerequisite: M CC 161, PHCC 141.
Forces, static equilibrium, mass center, moments of inertia, kinematics and kinetics of particles and rigid bodies.
CE 300 04(3-3-0). Fluid Mechanics. (Fall) Prerequisite: CE 261 or CE 262, ME 237.
Fluid properties; statics, kinematics, and dynamics of fluid motion including viscous and gravitational effects.
CE 302 03(2-2-0). Civil Engineering Synthesis I. (Fall) Prerequisite: CE 204/EV 204 or CE 203.
Civil engineering systems, simulation and optimization techniques, statistical tools and their use in civil engineering, risk analysis.
CE 322/EV 322 03(3-0-0). Basic Hydrology. (Fall) Prerequisite: CE 300 or CH 331 or WR 416, STCC 301 or STCC 309 or CE 302; or written consent of instructor. Credit not allowed for both CE 322 and EV 322.
Hydrologic cycle, soil moisture, groundwater, runoff processes, water contamination, applications in water resources and environmental engineering.
CE 350 03(2-3-0). Soil Engineering for Nonengineers. (Fall) Prerequisite: CE 359.
Concepts of soil mechanics and soil behavior, elementary application to compaction, seepage, earth pressure, foundations, and slopes.
CE 359 03(3-0-0). Basics of Statics and Strength of Materials. (Fall) Prerequisite: M CC 125, M CC 141, PHCC 110 or PHCC 121 or PHCC 141.
Forces and their components; static equilibrium; friction; section properties; stresses and deformations of elastic solids, combined stresses.
CE 360 03(3-0-0). Mechanics of Solids. (Fall) Prerequisite: CE 260 or CE 262.
Stresses and deformations in structural members and machine elements, combined stresses, stress transformation.
CE 363 01(0-3-0). Material Properties. (Fall) Prerequisite: CE 360.
Credit not allowed for both CE 363 and CE 362.
Mechanical properties of metals, woods, and plastics; testing techniques and standards.
CE 367 03(3-0-0). Structural Analysis. (Fall) Prerequisite: CE 360.
Determination of actions in and deformations of determinate and indeterminate structures.
CE 370 03(2-2-0). Introductory Structural Engineering. (Fall) Prerequisite: CE 359, F 432.
Behavior, design basics and construction concerns for structural members and systems of steel, reinforced or prestressed concrete, or masonry.
CE 377/SC 377 03(2-2-0). Geographic Information Systems in Agriculture. (Fall) Prerequisite: CS 110.
Credit allowed for only one of the following: CE 377, SC 377, and SC 577.
Introduction to geographic information systems and global positioning systems with applications to agriculture.
CE 402 03(2-2-0). Civil Engineering Design I. (Fall) Prerequisite: CE 303 (CE majors only) or CE 322/EV 322 (EV majors only).
Design of civil engineering systems, nontechnical and economic design considerations, project organization, design project development and presentation.
CE 438/EV 438 04(4-0-0). Pollution Control Engineering . (Fall) Prerequisite: C 113, CE 300 or CH 331 or ME 342. Credit not allowed for both CE 438 and EV 438.
Environmental engineering approaches to designing water supply, wastewater removal, and pollution control systems.
CE 439/ CH 439 03(2-3-0). Environmental Engineering Chemical Concepts. (Fall) Prerequisite: C 113, M 340. Credit not allowed for both CE 439 and CH 439.
Application of chemical principles to environmental engineering problems.
CE 440 03(3-0-0). Nonpoint Source Pollution. (Fall) Prerequisite: One course in soil science, hydrology, or fluid mechanics.
Principles, processes, impacts, and control of nonpoint source pollution of surface and groundwater.
CE 467 03(3-3-0). Design of Reinforced Concrete Structures. (Fall) Prerequisite: CE 367.
Design and behavior of reinforced concrete structural members.
CE 495 Var [1-3]. Independent Study.
CE 496 Var. Group Study.
Spring Semester Classes for Undergraduates
CE 103 03 (2-2-0). Civil Engineering Principles II. (Spring) Prerequisite: CE 102.
Introduction to the profession and academia; principles of civil engineering design; graphical, oral, and written communication; team projects.
CE 203 03(2-2-0). Civil Engineering Analysis II. (Spring) Prerequisite: C CC 111, CE 202, CE 260.
Behavior and properties of construction materials, instrumentation, use of statistical tools, material standards, material selection, quality control.
CE 260 03(3-0-0). Engineering Mechanics - Statics. (Spring) Prerequisite: M CC 160, PHCC 141.
Forces using vector notation; static equilibrium of rigid bodies; friction, virtual work, centroids, and moments of inertia.
CE 261 03(3-0-0). Engineering Mechanics - Dynamics. (Spring) Prerequisite: CE 260.
Kinematics and kinetics of particles and rigid bodies; concepts of work-energy and impulse-momentum; computer applications; vector notation.
CE 300 04(3-3-0). Fluid Mechanics. (Spring) Prerequisite: CE 261 or CE 262, ME 237.
Fluid properties; statics, kinematics, and dynamics of fluid motion including viscous and gravitational effects.
CE 303 03(2-2-0). Civil Engineering Synthesis II. (Spring) Prerequisite: CE 302.
Civil engineering infrastructure systems, numerical and decision analysis techniques, statistical and risk analysis, project management.
CE 322/EV 322 03(3-0-0). Basic Hydrology. (Spring) Prerequisite: CE 300 or CH 331 or WR 416, STCC 301 or STCC 309 or CE 302; or written consent of instructor. Credit not allowed for both CE 322 and EV 322.
Hydrologic cycle, soil moisture, groundwater, runoff processes, water contamination, applications in water resources and environmental engineering.
CE 350 03(2-3-0). Soil Engineering for Nonengineers. (Spring) Prerequisite: CE 359.
Concepts of soil mechanics and soil behavior, elementary application to compaction, seepage, earth pressure, foundations, and slopes.
CE 359 03(3-0-0). Basics of Statics and Strength of Materials. (Spring) Prerequisite: M CC 125, M CC 141, PHCC 110 or PHCC 121 or PHCC 141.
Forces and their components; static equilibrium; friction; section properties; stresses and deformations of elastic solids, combined stresses.
CE 360 03(3-0-0). Mechanics of Solids. (Spring) Prerequisite: CE 260 or CE 262.
Stresses and deformations in structural members and machine elements, combined stresses, stress transformation.
CE 363 01(0-3-0). Material Properties. (Spring) Prerequisite: CE 360.
Credit not allowed for both CE 363 and CE 362.
Mechanical properties of metals, woods, and plastics; testing techniques and standards.
CE 367 03(3-0-0). Structural Analysis. (Spring) Prerequisite: CE 360.
Determination of actions in and deformations of determinate and indeterminate structures.
CE 370 03(2-2-0). Introductory Structural Engineering. (Spring) Prerequisite: CE 359, F 432.
Behavior, design basics and construction concerns for structural members and systems of steel, reinforced or prestressed concrete, or masonry.
CE 403 03(2-2-0). Civil Engineering Design II. (Spring) Prerequisite: CE 402.
Design of civil engineering systems, nontechnical and economic design considerations; project organization, design project development and presentation.
CE 413 03(3-0-0). Environmental River Mechanics. (Spring) Prerequisite: CE 300 or WR 416.
Fluvial geomorphology, river hydraulics, sediment transport, and river response with special emphasis on environmental aspects.
CE 423 03(3-0-0). Groundwater Engineering. (Spring) Prerequisite: CE 300 or CH 331 or WR 416.
Development of groundwater resources; origin, movement, distribution of water below ground surface.
CE 425 04(3-3-0). Soil and Water Engineering. (Spring) Prerequisite: CH 331 or CE 300 or SC 240.
Control of the soil-water-plant medium for optimum plant growth and environmental protection.
CE 438/EV 438 04(4-0-0). Pollution Control Engineering . (Spring) Prerequisite: C 113, CE 300 or CH 331 or ME 342. Credit not allowed for both CE 438 and EV 438.
Environmental engineering approaches to designing water supply, wastewater removal, and pollution control systems.
EV 441 01(0-3-0). Water and Wastewater Characterization. (Spring) Prerequisite: CE 440 or concurrent registration or CE 438/EV 438 or concurrent registration.
Physical, chemical and biological methods for the characterization of waters and wastewaters.
CE 450 04(3-3-0). Introduction to Geotechnical Engineering. (Spring) Prerequisite: CE 360.
Soil behavior, stress-strain and strength properties, application to earth pressure, slope and foundation problems.
CE 466 03(2-3-0). Design and Behavior of Steel Structures. (Spring) Prerequisite: CE 367.
Loads acting on a structure; behavior and design of steel members, connections, and systems.
CE 467 03(3-3-0). Design of Reinforced Concrete Structures. (Fall) Prerequisite: CE 367.
Design and behavior of reinforced concrete structural members.
CE 495 Var [1-3]. Independent Study.
CE 496 Var. Group Study.
Classes Offered in Fall for Graduate Students
[+ Alternate year offering (odd); * Alternate year offering (even)]
CE 502 03(3-0-0). Fluid Mechanics. (Fall) Prerequisite: CE 300.
Fundamental physical concepts of fluid mechanics; ideal and viscous fluid flows; boundary-layer concepts.
CE 504 03(2-3-0). Wind Engineering. (Fall) Prerequisite: CE 300.
Influence of wind on humanity. Applications to structures, air pollution, wind energy, agricultural aerodynamics, snow movement, human comfort.
CE 510 03(3-0-0). Applied Hydraulic System Design. (Fall) Prerequisite: CE 401.
Operational management systems, data collection, real-time control, management modeling, rehabilitation and retrofit, maintenance.
EG 510/M 510 03(3-0-0). Linear Programming and Network Flows. (Fall)(Summer) Prerequisite: M 261 or M CC 315. Credit not allowed for both EG 510 and M 510.
Optimization methods; linear programming, simplex algorithm, duality, sensitivity analysis, minimal cost network flows, transportation problem.
CE 512 03(3-0-0). Irrigation Design and Management. (Fall) Prerequisite: CE 322 or CE 425.
Irrigation performance criteria. Design, management and evaluation of surface, sprinkler and trickle irrigation. Selection of irrigation systems.
CE 514 03(3-0-0). Hydraulic Structures/Systems. (Fall) Prerequisite: CE 401.
Analysis and design of hydraulic structures which make up components of water resource systems.
+CE 515 03(3-0-0). Hydropower. (Fall) Prerequisite: CE 322/EV 322 CE 401.
Operation of hydrogenerating and pump storage stations, characteristics of systems loads, hydrology, storage of water, optimum power production.
CE 517 03(3-0-0). Surface Irrigation Systems. (Fall) Prerequisite: CE 425.
Design and evaluation of surface irrigation systems. Water measurements, conveyance and control structures, land forming.
CE 520 03(3-0-0). Physical Hydrology. (Fall) Prerequisite: CE 322/EV 322.
Hydrologic, atmospheric processes in the water cycle; linear systems, hydrologic response; geomorphologic description of hydrologic processes, response.
*CE 521 03(2-3-0). Hydrometry. (Fall)
Techniques associated with data collection and field reconnaissance in the context of hydraulics and river mechanics.
CE525 Water Engineering for International Development.
CE 531 03(3-0-0). Groundwater Hydrology. (Fall) Prerequisite: CE 300 or CH 331 or ME 342.
Groundwater occurrence, distribution, movement, exploration and recharge, well hydraulics and design, interaction of ground and surface water.
CE 536 01(1-0-0). Wastewater Treatment. (Fall) Prerequisite: CE 540/CH 540.
Application of environmental biotechnology to wastewater treatment engineering and design.
+CE 539 03(2-3-0). Water and Wastewater Analysis. (Fall) Prerequisite: C 113, M 340.
Chemical and biological methods of assessing water quality; significance of chemicals in aquatic systems.
CE 544 03(3-0-0). Water Resources Planning and Management. (Fall) Prerequisite: CE 322/EV 322.
Management and planning of natural and constructed water systems. Integrated management and case studies of water use and environmental resources.
CE 545 03(3-0-0). Management and Monitoring of Water Quality. (Fall) Prerequisite: CE 322/EV 322 or WR 418.
Management activities, information needs, data analysis protocols, network design, case studies.
CE 548 03(3-0-0). Irrigation Management for Water Quality. (Fall) Prerequisite: CE 425.
Environmental impacts of irrigation; reduced environmental impact by improved design and management of irrigation; sustainability.
CE 550 03(3-0-0). Foundation Engineering. (Fall) Prerequisite: CE 450.
Mechanics and methodology of foundation engineering; selection and design of foundation systems on soft, firm, and expansive soils; special problems.
CE 558 03(3-0-0). Containment Systems for Waste Disposal (Fall) Prerequisite: CE 450.
Basic principles Basic principles governing the design of containment systems used in waste disposal applications.
CE 560 03(3-0-0). Advanced Mechanics of Materials. (Fall) Prerequisite: CE 360.
Analysis of stress and strain failure theory; selected topics in solid mechanics, plate analysis; introduction to elastic stability.
CE 566 03(3-0-0). Intermediate Structural Analysis. (Fall) Prerequisite: CE 367.
Work and energy concepts, curved members and arches, matrix analysis of linear systems, numerical techniques.
CE 569 03(3-0-0). Intermediate Design of Wood Structures. (Fall) Prerequisite: CE 367, F 432.
Characteristics of structural products and their consideration in design; behavior of glulam members, wood trusses, and other wood structural systems.
*CE 572 03(2-2-0). Analysis of Urban Water Systems. (Fall) Prerequisite: CE 300 and CE 401 or written consent of instructor.
+CE 573 03(2-2-0). Urban Stormwater Management. (Fall) Prerequisite: CE 322/EV 322 and CE 401 or written consent of instructor.
Effects of urbanization on watershed hydrology and receiving waters; control practices to mitigate effects using mathematical models.
CE 575 03(2-2-0). Expert System Applications in Engineering. (Fall) Prerequisite: M 340.
Construction of expert systems and decision aids for practical applications in typical engineering domains.
CE 576 03(2-2-0). Engineering Applications of GIS and GPS. (Fall)
Integration of GPS and GIS in the planning and decision making process, application to case study.
CE 580 Experimental Course. Offerings will vary.
CE 584 Var. Supervised College Teaching. (Fall) (Spring) (Summer).
CE 592A-L 01(0-0-1). Seminar.
A) Fluid mechanics and wind engineering. E) Geotechnical engineering. G) Environmental engineering. L) Space engineering.
CE 613 Stream Rehabilitation. (Fall) Prerequisite: CE 413, CE 612, CE 716, ER 652 or consent of instructor.
CE 622 03(3-0-0). Risk Analysis of Water/Environmental Systems. (Fall) Prerequisite: ST 301 or ST 309, CE 322, (or equivalent).
Risk and uncertainty analysis applied to hydrology, hydraulics, groundwater, water resources, and environmental engineering systems.
CE 633 03(3-0-0). Groundwater Contaminant Transport Modeling. (Fall) Prerequisite: CE 300, M 340; concurrent registration in CE 423 or CE 531.
Numerical modeling, transport, control and cleanup, applied to complex groundwater contamination problems found in the field.
CE 635 03(3-0-0). Quantitative Hydrogeology. (Fall) Prerequisite: CE 300, M 340, concurrent registration in CE 423 or CE 531.Geostatistics; modeling fracture flow; saltwater intrusion, heat transfer; conjunctive use, optimal groundwater management; solution nonlinear problems.
*CE 639/S 639 03(3-0-0). Technology Assessment and Social Forecasting. (Fall) Prerequisite: CE 544 or S 500. Credit not allowed for both CE 639 and S 639.
Interrelationship between technology and society emphasizing procedures for evaluating impacts and forecasting alternatives.
CE 645 03(2-2-0). Computer-Aided Water Management and Control. (Fall) Prerequisite: CE 546 or CE 577.
Real-time management and control of water resource systems; applications of computer control concepts to improve system performance.
CE 655 04(3-3-0). Advanced Soil Mechanics. (Fall) Prerequisite: CE 450.
Soil behavior; principles of mechanics of soils; effective stress principle; shear strength and consolidation of soils.
CE 662 03(3-0-0). Foundations of Solid Mechanics. (Fall) Prerequisite: CE 560, M 531.
Analysis of stress and strain in solids emphasizing linear elasticity and plasticity; introductions to creep, viscoelasticity, and finite deformations.
CE 684 Var. Supervised College Teaching. (Fall) (Summer).
CE 693 Var. Seminar I.
CE 695A-J Var. Independent Study.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
CE 696A-J Var. Group Study.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
CE 699A-J Var. Thesis.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
*CE 703 03(3-0-0). Special Topics in Fluid Mechanics. (Fall) Prerequisite: CE 502 or written consent of instructor.
Advanced topics in fluid mechanics; associated experimental and numerical techniques.
CE 716 03(3-0-0). Erosion and Sedimentation. (Fall) Prerequisite: CE 502.
Sediment properties; resistance to flow; incipient motion and bedforms; sediment transport, reservoir sedimentation.
+CE 722 03(3-0-0). Large Scale Hydrology. (Fall) Prerequisite: CE 520.
Global and regional scale hydrologic processes; land/atmosphere interaction; scaling in hydrology, geomorphoclimatic structure of hydrologic response.
*CE 766 03(3-0-0). Plate, Shell, and Bridge Structures. (Fall) Prerequisite: CE 560, CE 665.
Classical plate, shell, and membrane theory. Finite difference, element, and strip methods. Application to layered systems, domes, and bridges.
+CE 767 03(3-0-0). Structural Dynamics and Earthquake Engineering. (Fall) Prerequisite: CE 562, CE 667.
Analysis, behavior, and design of structural systems subjected to dynamic loads, including earthquakes, wind, and ocean waves.
CE 793 Var. Seminar II.
CE 799A-J Var. Dissertation.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
Classes Offered in the Spring for Graduate Students
EG 510/M 510 03(3-0-0). Linear Programming and Network Flows. (Spring)(Summer) Prerequisite: M 261 or M CC 315. Credit not allowed for both EG 510 and M 510.
Optimization methods; linear programming, simplex algorithm, duality, sensitivity analysis, minimal cost network flows, transportation problem.
CE 516 03(3-0-0). Water Control and Measurement. (Spring)
Flow regulation and measurement in gravity flow irrigation systems for efficient and equitable water distribution among users.
CE 518 03(3-0-0). Sprinkler and Trickle Irrigation Systems. (Spring) Prerequisite: CE 425, CE 300.
Basic principles, design, and evaluation of pressurized irrigation systems.
CE 522 03(3-0-0). Engineering Hydrology. (Spring) Prerequisite: CE 520.
Hydrologic design under uncertainty; conventional and remote sensing; design flows and storms; river routing; reservoir design; watershed models.
+CE 524/WR 524 04(3-0-1). Modeling Watershed Hydrology. (Spring) Prerequisite: CE 322/EV 322 or WR 416, ST 304 or STCC 309. Credit not allowed for both CE 524 and WR 524.
Development and application of watershed models: structure, calibration, evaluation, sensitivity analysis, simulation.
CE 537 03(3-0-0). Residuals Management. (Spring) Prerequisite: CE 300.
Planning and design for processing and disposal of residuals including solid wastes, sludges, hazardous wastes.
CE 538 03(3-0-0). Aqueous Chemistry. (Spring) Prerequisite: C 113, M 340.
Principles of solution chemistry applied to aquatic systems.
CE 540/CH 540 02(2-0-0).Fundamentals of Environmental Biotechnology. (Spring) Credit not allowed for both CE 540 and CH 540.
Fundamentals of environmental biotechnology: environmental microbiology, microbial kinetics, basic reactor design.
CE 541 04(3-3-0). Treatment of Water Contaminants II. (Spring) Prerequisite: CE 540, C 471 or C 474.
Reactor theory, filtration, adsorption, ion exchange, gas transfer, oxidation, membranes, biological reactors, disinfection.
+CE 542 03(3-0-0). Water Quality Modeling . (Spring) Prerequisite: Two semesters of chemistry, one course in hydrology or water quality.
Chemical, physical, and biological processes defining surface water quality, construction and application of computer models for lakes and streams.
CE 546 03(2-2-0). Water Resource Systems Analysis. (Spring) Prerequisite: CE 322/EV 322, EG 510/M 510, or concurrent registration in each.
Applications of systems analysis and optimization techniques in water resources planning and management.
CE 547/ST 547 03(3-0-0). Statistics for Environmental Monitoring. (Spring) Prerequisite: STCC 301. Credit not allowed for both CE 547 and ST 547.
Applications of statistics in environmental pollution studies involving air, water, or soil monitoring; sampling designs; trend analysis; censored data.
CE 549 03(3-0-0). Drainage and Wetlands Engineering. (Spring) Prerequisite: CE 425.
Drainage and wetlands design for agricultural and natural resource applications. Water table modification for nonpoint sources pollution control.
+CE 553 03(3-0-0). Earth and Earth-Retaining Structures. (Spring) Prerequisite: CE 450.
Load on conduits; retaining walls; braced cuts; sheet pilewalls; slope stability; embankments.
CE 562 03(3-0-0). Fundamentals of Vibrations. (Spring) Prerequisite: CE 261, CE 360
Free and forced vibrations of single, two, and multiple degree of freedom systems. Closed-form and numerical solutions.
CE 567 03(3-0-0). Advanced Concrete Design. (Spring) Prerequisite: CE 467.
Behavior of reinforced and prestressed concrete members. Development of design methods. Behavior and design of slabs, shearwalls, and buildings.
CE 577 03(2-2-0). GIS in Civil and Environmental Engineering. (Spring) Prerequisite: CE 300, CE 322/EV 322.
GIS technology for spatial design/analysis; applications in facilities management, urban infrastructure, water resources, environmental engineering.
CE 578 03(3-0-0). Infrastructure Engineering and Management. (Spring) Prerequisite: Ten credits of engineering, economics, public administration, or planning courses.
Infrastructure program planning, management, and engineering. Problems, tools of analysis, solution strategies. Use of decision support systems.
CE 580 Experimental Course. Offerings will vary.
CE 584 Var. Supervised College Teaching. (Spring) (Summer).
CE 592A-L 01(0-0-1). Seminar.
A) Fluid mechanics and wind engineering. E) Geotechnical engineering. G) Environmental engineering. L) Space engineering.
CE 603 03(3-0-0). Wind Effects on Structures. (Spring) Prerequisite: CE 504.
Analysis of wind effects on buildings and structures; deterministic and probabilistic methods; aerodynamic loading and response; codes and standards.
CE 604 03(3-0-0). Fluid Turbulence and Modeling. (Spring) Prerequisite: CE 502 or CE 504.
Engineering concepts for transport of pollutants, toxic and flammable species, sand, and snow. Fluid modeling, numerical and analytical approaches.
+CE 607 03(3-0-0). Computational Fluid Dynamics.(Spring) Prerequisite: CE 502 or AT 601, M 350.
Unique fluid mechanics aspects of advection, boundary conditions, and turbulence models. Solution of elliptic, parabolic, and hyperbolic problems.
CE 610 03(3-0-0). Special Topics in Hydraulics. (Spring) Prerequisite: CE 502.
Advanced topics in hydraulics, hydromechanics, environmental hydraulics, and computational hydraulics.
EG 610 03(3-0-0). Engineering Decision Support/Expert Systems. (Spring) Prerequisite: EG 510 or M 510.
Decision support systems for complex engineering problems; multicriteria decision making and optimization; hybrid knowledge-based/algorithmic methods.
CE 612 04(4-0-0). Open Channel Flow. (Spring) Prerequisite: CE 502.
Steady, uniform, and non-uniform flow; backwater curves; flow through bridge piers, transitions, and culverts; spatially varied and unsteady flow.
CE 614 03(3-0-0). Hydraulics of Closed Conduits. (Spring) Prerequisite: CE 502.
Pipe transmission and distribution systems design including flow control, flow measurement, energy dissipation, pump selection, transients, cavitation.
CE 623 03(3-0-0). Water Quality Hydrology. (Spring) Prerequisite: CE 322/EV 322.
Effects and dispersion of natural, municipal, industrial, toxic, and other water pollutants on natural and impounded waters.
*CE 624 03(3-0-0). Control of Floods and Droughts. (Spring) Prerequisite: CE 522.
Flood and drought characteristics, impacts; structural, nonstructural flood control measures; drought prediction, drought control, drought response.
CE 631 03(3-0-0). Solutions to Groundwater Problems. (Spring) Prerequisite: CE 531, M 340.
Numerical flow models; finite difference and finite element methods; parameter identification, stochastic modeling and advanced analytical solutions.
CE 638 03(3-0-0). Groundwater Quality and Contaminant Transport. (Spring) Prerequisite: CE 531.
Analysis of hydrochemical data. Advection with and without mixing. Retardation of reactive solutes. Design of groundwater quality investigations.
+CE 656 03(3-0-0). Design of Dams. (Spring) Prerequisite: CE 450.
Design of earth and concrete gravity dams; hydrologic, structural, soil mechanics, seepage, earthquake, wind waves, and site selection considerations.
CE 658 03(3-0-0). Remediation Systems-Subsurface Contamination. (Spring)
Applications in geoenvironmental engineering practice involving design of in situ containment and remediation systems.
CE 665 03(3-0-0). Finite Element Method. (Spring) Prerequisite: M 340.
Theory and application in elasticity, porous flow, heat conduction, and other engineering problems.
CE 667 03(3-0-0). Advanced Structural Analysis. (Spring) Prerequisite: CE 566.
Analysis program development, application of finite element analysis, computer-assisted analysis, introduction to nonlinear analysis.
+CE 669 03(3-0-0). Advanced Design of Metal Structures. (Spring) Prerequisite: CE 466.
Behavior of steel, aluminum, and cold formed members. Development of elastic and inelastic code provisions. LRFD design methods, building systems.
CE 693 Var. Seminar I.
CE 695A-J Var. Independent Study.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
CE 696A-J Var. Group Study.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
CE 699A-J Var. Thesis.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
+CE 717 03(3-0-0). River Mechanics. (Spring) Prerequisite: CE 716.
Characteristics of rivers, mechanics of sediment and water discharge emphasizing alluvial systems, channel stabilization, control, response.
+CE 721 03(3-0-0). Stochastic Water and Environmental Systems . (Spring) Prerequisite: CE 622.
Stochastic analysis of water and environmental systems. Simulation, forecasting, spatial analysis, modeling changes, stochastic differential equations.
CE 733 03(3-0-0). Flow in Porous Media. (Spring) Prerequisite: CE 300; CE 531 or SC 470.
Mechanics of single and two-phase fluids in soils and porous rocks with application to infiltration, drainage, and petroleum production.
*CE 742 03(2-3-0). Advanced Topics in Environmental Engineering. (Spring) Prerequisite: CE 540 or written consent of instructor.
Selected topics from current environmental engineering research including molecular methods, water/wastewater treatment, hazardous waster remediation.
*CE 751 03(3-0-0). Soil Dynamics. (Spring) Prerequisite: CE 450.
Soil behavior under dynamic loading; stress wave propagation; foundation response to vibratory and transient loading; elements of earthquake effects.
+CE 754 03(3-0-0). Special Topics in Geotechnical Engineering. (Spring) Prerequisite: CE 655, written consent of instructor.
Advanced topics in geotechnical engineering including cold regions problems, expansive/collapsing soils, computer applications.
CE 793 Var. Seminar II.
CE 799A-J Var. Dissertation.
A) Fluid mechanics and wind engineering. B) Hydraulics. C) Hydrology and water resources. D) Mechanics. E) Geotechnical engineering. F) Structures. G) Environmental engineering. H) Water resource planning and management. I) Groundwater. J) Bioresource and agricultural engineering.
