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Chemical Engineering Courses

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CH EN 612 - Nuclear Reactor Design & Anal.

This course teaches the basic principles of nuclear reactor design including core design, nuclear system design, structural design, safety analyses, and nuclear licensing. Integration of nuclear reactor systems, structures, and components is also a strong focus of this course. Finally, lectures will include the integration of these highly technical design topics with Nuclear Regulatory Commission licensing requirements and processes.
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CH EN 541 - Numerical Methods for Eng.

Computer-aided design and numerical methods of chemical engineering processes.
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CH EN 536 - Machine Learning & Dynamic Opt

Machine Learning and Dynamic Optimization is a graduate level course on the theory and applications of numerical solutions of time-varying systems with a focus on engineering design and real-time control applications. Concepts taught in this course include physics-based and empirical modeling, machine learning classification and regression, nonlinear programming, estimation, and advanced control methods such as model predictive control.
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CH EN 522 - Comb Proc

Fundamentals of transport processes in reacting flow systems with specific applications of various combustion processes.
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CH EN 512 - Nuclear Reactor Transient Mod.

This course focuses on the thermal-hydraulic assessment of nuclear reactor design basis and beyond design basis transients using state-of-the-art computer code. Instruction will focus on both instruction in using this code and study of design basis accidents for both standard and advanced reactor concepts.
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CH EN 799 R - Dissertation

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CH EN 793 R - Spcial Topics Grad

Topics vary according to student-faculty interests.
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CH EN 791 R - Doctorate Seminar

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CH EN 733 - Coal Comb

Fundamentals of coal combustion and gasification processes, including particle mechanics, devolatilization, heterogeneous oxidation, radiative heat transfer, and combustion of coal in practical flames.
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CH EN 699 R - Masters Thesis

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CH EN 698 R - Master's Project

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CH EN 693 R - Spcial Topics Grad

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CH EN 691 R - Sem Masters Stdnts

Technical presentations by graduate students, faculty members, and guests.
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CH EN 687 - Stats for Physics-Based Systms

Using linear and nonlinear models to design experiments, regress coefficients, and infer confidence intervals for both the regressed coefficients and the predictions for systems with errors in one or several variables.
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CH EN 685 - Ch En for Chemistry Students

Intensive treatment of fundamentals of material and energy balances, fluid flow, and heat and mass transfer, with application to design and analysis of engineering systems.
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CH EN 674 - Adv Thermodynamics

Advanced topics of thermodynamics, including electrolytes, phase equilibrium modeling, nonequilibrium thermodynamics, and calorimetry.
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CH EN 641 - Comb Model

Theory of combustion systems and quantitative procedures for computing performance of combustion chambers. Applications include turbulent combustion of gases, sprays, and particulates.
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CH EN 634 - Advanced Mass Transfer

Fundamental mass transfer for multicomponent and flow systems. Includes influence of species activities and temperature gradients.
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CH EN 633 - Comb Proc

Fundamentals of transport processes in reacting flow systems with specific applications of various combustion processes.
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CH EN 610 - Prin of Reservoir Engineering

Reservoir and hydrocarbon classification; fluid flow; primary oil and gas recovery mechanisms; enhanced oil recovery.
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CH EN 601 - Directed Graduate Studies

Guided preparation for department's comprehensive exams and for formulation of research prospectus.
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CH EN 593 R - Special Topics - Intermediate

Special topics for advanced undergraduate students and for graduate students.
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CH EN 578 - Polymer Science & Engineering

Foundation science and theory of polymer chemistry and physics and their implications in engineering applications. Topics include polymerization chemistry, structure-property relationships, polymer physics, and transport properties.
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CH EN 541 - Computer Design Methods

Computer-aided design and numerical methods of chemical engineering processes.
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CH EN 535 - Kinetics Catalysis

Theories and principles of chemical kinetics, including heterogeneous catalysis and reactor design.
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CH EN 533 - Transport Phenomena

Transport mechanisms and coefficients and fundamental field equations for momentum, heat, and mass transport, with application to system design.
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CH EN 531 - Thermodynamics Multicon Syst

Fundamental concepts and applications in first and second laws, equilibrium and stability, phase equilibrium, and homogeneous and heterogeneous chemical equilibrium.
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CH EN 528 - Industrial Catalytic Processes

Fundamentals of catalytic chemistry and materials; applications to important industrial catalytic processes. Includes catalyst materials and preparation, catalyst characterization, fixed-bed reactor design, and catalyst deactivation.
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CH EN 519 - Biochemical Engineering

Applying chemical engineering principles to biochemical systems.
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CH EN 518 - Biomedical Engin Principles

Application of chemical engineering principles to model physiologic systems and to solve medical problems.
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