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Course Criteria
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3.00 Credits
Processes used to control emissions of particulate air pollutants. Use of settling chambers, cyclones, fabric filters, wet scrubbers, and electrostatic precipitators to control aerosol particles. Case studies of particulate air-pollutant control systems. Offered: jointly with CHEM E 567; odd years.
Prerequisite:
CEE 468 or permission of instructor
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3.00 - 4.00 Credits
Faustman Examines context, methodologies, data, uncertainties, and institutional arrangements for risk assessment. Qualitative and quantitative approaches to identification, characterization, and control of environmental hazards to health emphasized through didactic and case studies. Offered: jointly with ENV H 577/PB AF 589; A.
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4.00 Credits
Applications of the equations of motion to the flow of ideal and real fluids. Fundamentals of fluid potential motion. Viscous flows; Navier-Stokes equations and some exact solutions. Boundary-layer theory. Introduction to turbulence. Two- and threedimensional examples, including free surface flows. Applications of field equations to problems of engineering significance.
Prerequisite:
CEE 342 or equivalent
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3.00 Credits
Theoretical, field study, and laboratory model approaches to diffusion in transport problems of concern to water resources engineers.
Prerequisite:
CEE 342 or permission of instructor
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3.00 Credits
Theory of water waves. Classical water wave problem and approximate solution techniques. Evolution equations for and their solutions wave systems. Viscous damping effects and mass transport. Nonlinear shallow-water waves and the Korteweg-deVries equation. Waves on beaches. Recommended: graduate-level course in fluid mechanics.
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4.00 Credits
Review of hydrodynamic and transport equations for hydraulic engineering application; numerical solution methods; implementation and practice with existing two- and three-dimensional numerical models; numerical model calibration and verification techniques; case studies. Theoretical and civil engineering decision makers aspects.
Prerequisite:
CEWA 474, CEE 570, CEE 571 or permission of instructor
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3.00 Credits
Detailed treatment of statistical methods used in hydrologic analysis. Stochastic hydrology, detailed examination and use of a deterministic watershed model (e.g., Stanford Watershed Model).
Prerequisite:
graduate standing in civil engineering or permission of instructor
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3.00 Credits
Review of equations for flow and transport in porous media; techniques for simulating transport as boundary value problems; analytical and numerical solution techniques; finite element models; field-scale applications and case histories.
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3.00 Credits
Palmer Engineering, social, and economic factors involved in water resource development and management; water policies, programs, and administration; use relationships and conflicts; considerations for regional water resource systems. Offered: W.
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3.00 Credits
Application of biological, ecological, and chemical processes to modeling of water quality and use of such models in appropriate management of water resource systems. Includes units on the modeling of temperature, BOD, nutrient, phytoplankton, zooplankton, and other processes in lakes, streams, and estuaries. Recommended: CEE 476, CEE 485, CEE 462/ FISH 434, and CEE 491.
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