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Course Criteria
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3.00 Credits
Introduces fundamental concepts in linear algebra, numerical methods and applied statistics needed to solve engineering problems. IN this context, this course also introduces and reinforces computational tools that will be useful for other CHE classes. Prerequisites: C or better in CHE 1005 or ES 1060; C or better in CHE 2005; C or better or concurrent enrollment in MATH 2310.
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3.00 Credits
Discusses first and second laws of thermodynamics applied to chemical processes, production of power from heat, refrigeration, and liquefaction processes, develops thermodynamic relations for calculating thermodynamic properties of fluids, including the use of equations of state, and introduces heat effects, Gibbs-energy change of reaction, and chemical-reaction equilibria.Prerequisites: C- or better in CHE 2005, PHYS 1210. C or better in MATH 2210.
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3.00 Credits
Introduces the fundamental aspects of macroscopic fluid mechanics, including physical properties, fluid statics, mass, energy, and momentum balances, momentum transport, and flow through pumps, pipes, and other chemical engineering equipment for both incompressible and compressible fluids, and of microscopic fluid mechanics, including differential mass and momentum balances. Prerequisites: C- or better in CHE 2005, PHYS 1210, and C or better in MATH 2210. Concurrent with MATH 2310.
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2.00 Credits
Introduces students to sensors, valves, actuators and the assembly of process control components. Provide hands-on practical experience with level control, flow control, temperature control and pressure control processes. This course consists of one (1) hour of lecture and two (2) hours of laboratory per week. Prerequisite: C or better in MATH 2205.
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3.00 Credits
Introduces analysis of chemical processes using stoichiometry, material and energy balances, thermodynamics and economics. Prerequisite: ES 2310 or concurrent enrollment.
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3.00 Credits
Introduces mixture properties, such as chemical potentials, excess properties, partial molar properties, heats of mixing, fugacitieis, and activities, and practical tools for estimating them from solution theories and equations of state. These tools and concepts are applied to phase and chemical equilibria. Prerequisites: ES 2310, CHE 2060. Offered in the fall.
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3.00 Credits
Introduces mixture properties, such as chemical potentials, excess properties, partial molar properties, heats of mixing, fugacities, and practical tools for estimating them from solution theories and equations of state. These tools and concepts are applied to phase and chemical equilibria. Prerequisite: C- or better in CHE 2060, & CHE 2070 or ES 2310. Students must be a Petroleum Engineering major.
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3.00 Credits
Introduces energy and mass transfer concepts and the development of mathematical models of physical phenomena, including convection, diffusion, conduction and radiation, applicable to the analysis and design of chemical processes. Prerequisites: ES 2330 and concurrent enrollment in CHE 3000. (Normally offered fall semester)
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3.00 Credits
Introduces energy and mass transfer to concepts and the development of mathematical models of physical phenomena, including convection, diffusion, conduction and radiation, applicable to the analysis and design of chemical processes. Cross listed with PETE 3025. Prerequisites: C or better in ES 2330 and CHE 2005.
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3.00 Credits
Introduces the theory and application of energy transport (e.g. conduction, convection, radiation), discusses in depth fundamentals of microscopic energy transport, and applies the knowledge to macroscopic chemical engineering processes and systems. Proposed Prerequisites: C- or better in CHE 2060, and CHE 2080 or ES 2330.
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