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CHE 110A: Chemical Process Analysis

3.00 Credits

University of California-Riverside

Lecture, 2 hours; discussion, 1 hour. Prerequisite(s): CHEM 001C, MATH 009C, PHYS 040B; or consent of instructor. Introduces the principles of conservation of mass in chemical process systems. Topics include the development of steady-state mass balances, and application of mass balances to existing industrial processes.

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CHE 110B: Chemical Process Analysis

3.00 Credits

University of California-Riverside

Lecture, 2 hours; discussion, 1 hour. Prerequisite(s): CHE 110A or consent of instructor. Applies principles of conservation of energy to chemical process systems. Topics include the development of steady-state and unsteady-state energy balances, and combined mass and energy balances in industrial processes.

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CHE 114: Applied Fluid Mechanics

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): MATH 010A, MATH 046; or consent of instructor. An introduction to fluid statics, fluid flow, flow of compressible and incompressible fluids in conduits and open-channel flow, flow past immersed bodies, transportation and metering of fluids, and agitation and mixing of liquids. Credit is awarded for only one of CHE 114 or ME 113.

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CHE 116: Heat Transfer

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): CHE 100, CHE 114; or consent of instructor. An analysis of heat transfer for Chemical Engineering and Environmental Engineering majors. Topics include steady- and unsteady-state heat conduction, forced convection, basic radiation heat transfer, and design of heat exchangers. Credit is awarded for only one of CHE 116 or ME 116A.

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CHE 117: Separation Processes

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): CHE 130/ENVE 130 (may be taken concurrently), CHE 116, CHE 120; or consent of instructor. Fundamental concepts and practical techniques for designing equipment based on equilibrium stage processes such as gas-liquid absorption, distillation, liquid-liquid extraction, solid-liquid extraction, humidification, drying, and membrane processes.

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CHE 118: Process Dynamics and Control

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): CHE 117, CHE 122, ENGR 118; or consent of instructor. Fundamentals of process control. Feedback and feedforward control of dynamic processes. Frequency response analysis. Introduction to multivariable control.

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CHE 120: Mass Transfer

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): CHE 114, ENGR 118, and either CHE 110A or ENVE 171; or consent of instructor. Introduction to analysis of mass transfer in systems of interest to chemical and environmental engineering practice. Transport of matter by diffusion, free and forced convection.

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CHE 122: Chemical Engineering Kinetics

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): CHEM 001C, MATH 010A, MATH 046, PHYS 040B; or consent of instructor. Introduction to homogeneous and heterogeneous kinetics and reactor design for chemical and biochemical processes.

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CHE 124: Biochemical Engineering Principles

4.00 Credits

University of California-Riverside

Lecture, 3 hours; discussion, 1 hour. Prerequisite(s): BCH 110A, BIOL 121/MCBL 121 (BIOL 121/MCBL 121 may be taken concurrently), CHE 120, CHE 122; or consent of instructor. Examines the principles of biochemical engineering. Topics include kinetics of enzymatic reactions and microbial growth, batch and continuous culture reactors, product formulation, and nutrient utilization. Also studies oxygen transfer, bioreactor scale-up, air and media sterilization, fundamentals of bioreactor design, and bioseparations.

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CHE 124L: Biochemical Engineering Laboratory

2.00 Credits

University of California-Riverside

Laboratory, 6 hours. Prerequisite(s): CHE 124 or consent of instructor. Laboratory practices in biochemical engineering. Determination of microbial kinetics and biologically mediated reactions, oxygen transfer coefficients. Batch and continuous culturing, air and media sterilization, bioseparations.

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