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Course Criteria
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1.00 Credits
Applying experimental design and the basic concepts in transport phenomena in experimental study of both chemical and materials engineering systems that may involve diffusivity measurement, batch distillation, heat exchanger, membrane separation, droplet evaporation, heat transfer in extended surfaces and others. 1 threehour laboratory. Prerequisites: CHE 311/322L, CHE 302.
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12.00 Credits
Individual or group investigation, research, studies, or surveys of selected problems. Total credit limited to 4 units, with a maximum of 2 units per quarter.
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4.00 Credits
Treatment of mass, momentum and heat transport viewed with the traditional unit operations emphasis. Multicomponent and multiphase systems are considered, with some problems involving design. Distillation, absorption and heat exchanger design. 4 lectures/problemsolving. Prerequisite: CHE 313.
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2.00 Credits
Introduction to theory, design, and application of automatic control systems to chemical and physical processes. 2 lectures/problemsolving. Prerequisites: CHE 304, CHE 312.
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2.00 Credits
Improve the understanding of natural processes and the fundamentals that govern the concentrations of contaminants in water, air, and other media. Topics in air pollution, water pollution, and solid waste. Group project involving study and preliminary design, including cost analysis. 2 lectures/problemsolving. Prerequisites: CHE 302, CHE 311.
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1.00 Credits
Applying the basic concepts in kinetics, thermodynamics, and transport phenomena in experimental study of systems that may involve binary distillation, batch reactor, column operating characteristics, fluidized bed, and others. 1 threehour laboratory. Prerequisites: CHE 304, CHE 312.
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1.00 Credits
Experimental study of the dynamics and control of chemical engineering processes using singleloop, PID controllers. Simulation of real control systems. Hardware requirements for real control systems. 1 threehour laboratory. Corequisite: CHE 426.
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4.00 Credits
Design of major equipment and control systems common to most chemical industries. Emphasis on how equipment fits together and interacts in an integrated process. Optimization strategies in process design. Topics in air pollution, water pollution, and solid waste. Use of process simulators. 4 lectures/problemsolving and 1 threehour computational laboratory. Prerequisites: CHE 304, CHE 313.
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3.00 Credits
Treatment of process design methodology. Energy integration in plant design. Onsite study of selected process industries. Design problems related to process industries visited. Basic engineering economics including cost estimating. Discussion of contemporary economic issues. Emphasis on use of process simulators. 3 lectures/problemsolving and 1 threehour laboratory. Prerequisites: CHE 441/451L.
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3.00 Credits
Team project to perform process design and cost estimating of a complete plant with attention to environmental constraints including state and Federal laws. Emphasis on team effort, effective communication, plant design procedure, plant management and control. Use of process simulators. 3 lectures/problemsolving and 1 threehour computational laboratory. Prerequisites: CHE 442/452L.
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