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Course Criteria
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14.00 Credits
Group study of a selected topic, the title to be specified in advance. Total credit limited to 8 units, with a maximum of 4 units per quarter. Instruction is by lecture, laboratory, or a combination.
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3.00 Credits
A study in the application of basic linear algebra, derivative, and integral concepts to solve chemical and materials engineering problems. Use of firstorder ordinary differential equations to solve transient materials and energy balances. 3 lectures/problemsolving. Prerequisites: ENG 104 or equivalent, Cor better in MAT 216 and Cor better in CHE 202 and 212L.
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4.00 Credits
The study of classical thermodynamics from both a chemical and materials engineering perspective. Energy and its transformations; heat and work effects; first and second law analysis; property relationships; equilibrium and phase behavior; equations of state; heat engines, heat pumps, steam power plant cycles, refrigeration cycles, gas power cycles. Ideal gas heat capacity. 4 lectures/problemsolving. Prerequisites: MAT 214 and PHY 132/L.
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4.00 Credits
Phase equilibria of ideal and nonideal systems. Concepts of electrochemistry fugacity, activity, and activity coefficient. Group contributions. Calculation of thermodynamic properties from experimental data. Enthalpy changes of mixing and phase changes. Microscopic thermodynamics and statistical mechanics applied to macroscopic properties and behavior of materials. Chemical reaction equilibria. Thermodynamic study of processes involving phase equilibria. 4 lectures/problemsolving. Prerequisite: CHE 302.
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4.00 Credits
Homogeneous and heterogeneous reaction kinetics for both chemical and materials engineering systems. Analysis of kinetic data. Reactor design, including batch, mixed flow, and plug flow reactors. Diffusional transformations, solidification, diffusionless transformations, and nonequilibrium thermodynamics. 4 lectures/problemsolving. Prerequisite: CHE 303.
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1.00 Credits
Introduction to software applications and the numerical solution of chemical engineering problems. Programming concepts. 1 threehour computational laboratory. Prerequisites: CHE 202/212L; CHE 132/142L or equivalent.
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4.00 Credits
Basic course in fluid mechanics with emphasis on real fluids and applications to unit operations of chemical engineering, including topics in dimensional analysis, fluid properties, kinematics, and dynamics of fluid flow, friction, boundary conditions, and piping calculations. Introduction to energy transfer by conduction, convection, and radiation. 4 lectures/problemsolving. Prerequisites: ME 214, MAT 214, CHE 202.
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3.00 Credits
Basic course in heat and mass transfer with application to the unit operations of chemical and materials engineering, including topics in energy transfer by conduction, convection and radiation, and diffusional and convective mass transfer. 3 lectures/problemsolving. Prerequisites: CHE 302, and CHE 311.
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3.00 Credits
Mass transfer and its application to the unit operations of chemical engineering. Topics will include molecular diffusion, convective diffusion, and process design of distillation and absorption towers. 3 lectures/problemsolving. Prerequisites: CHE312/322L, CHE 303
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1.00 Credits
Applying experimental design and the basic concepts in transport phenomena and thermodynamics in experimental study of systems that may involve pressure drop in pipes, flow measurement, viscosity measurement, heat of combustion measurement, energy and entropy balance, pump operating characteristics and measurement of transport properties of both chemical and materials engineering systems. 1 threehour laboratory. Prerequisites: CHE 202/212L,
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