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CHE 6150: Alternative Energy

3.00 Credits

Clemson University

Addresses the technological environmental, political, social and economic fundamentals associated with using alternative energy sources to meet global energy needs. Engineering analysis is used to evaluate several alternative energy technologies, including biomass, geothermal, hydropower, nuclear, solar and wind. Preq: CHE 2200 and CHE 2300 or consent of instructor.

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CHE 6160: Energy Storage

3.00 Credits

Clemson University

This course covers the fundamentals of electrical energy storage systems for transportation, with a focus on advanced batteries, super capacitors and fuel cells. Students develop skills and knowledge necessary for a career in electrical transportation, which includes the essential engineering background. Primary course topics are basic principles of energy storage devices and systems; packaging and thermal management; and battery sizing, integration, and hybrid system comprising various types of devices. It is recommended that students have general knowledge of chemistry and materials prior to enrolling in this course.

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CHE 6350: Intro to Pharmaceutical Engr

3.00 Credits

Clemson University

Overview of the pharmaceutical engineering process, including the drug development process from medicinal compound isolation, drug delivery and application to the steps required for clinical translation. Students are expected to have familiarity with fluid phase equilibrium and mass transfer/separation processes before enrolling in this course.

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CHE 6400: Biopharmaceutical Engineering

3.00 Credits

Clemson University

This course examines the design principles necessary to use bacteria, fungi, and mammalian cells in bioengineering applications, including molecular techniques, fermentation, process scale-up, purification processes, and FDA regulations. The production of biopharmaceuticals derived from recombinant systems, including uses in medical systems, in emphasized. May also be offered as BIOE 6400.

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CHE 6450: Sel Topics in Chem Engineering

3.00 Credits

Clemson University

Topics not covered in other courses, emphasizing current literature, research and practice of chemical engineering. Topics vary from year to year. May be repeated, but only if different topics are covered. Preq: Consent of instructor.

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CHE 6500: Chem Reaction Engr

3.00 Credits

Clemson University

Review of kinetics of chemical reactions and an introduction to the analysis and design of chemical reactors. Topics include homogeneous and heterogeneous reactions, batch and continuous flow reaction systems, catalysis, and design of industrial reactors. Preq: CHE 3210 and CHE 3300 and CH 3320.

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CHE 6530: Process Dynamics and Control

3.00 Credits

Clemson University

Mathematical analysis of the dynamic response of process systems. Basic automatic control theory and design of control systems for process applications.

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CHE 6650: Pharmaceutical Engr Processes

3.00 Credits

Clemson University

An overview of the pharmaceutical engineering processes used in large scale production of drug products, recognizing that the great majority of modern drug products are chemicals. Topics covered include pathophysiology, medicinal chemistry, dosage forms, and the unique unit operations involved in scaling up drug products. This course helps prepare chemical engineering students to enter the pharmaceutical industry.

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CHE 8010: Grad Research Skills & Ethics

3.00 Credits

Clemson University

Introduction to graduate research, with a focus on ethics, safety and universal research skills. Topics include ethics, lab safety, chemical literacy, scientific presentations, grant writing, experimental design, and career development.

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CHE 8030: Advanced Transport Phenomena

3.00 Credits

Clemson University

Analysis of heat, mass and momentum transfer; derivation and application of the governing equations; solution of steady and unsteady-state multidimensional problems in fluid flow, heat transfer and mass transfer. Students are expected to have completed undergraduate chemical engineering courses covering mass and energy balances; fluid mechanics; heat transfer; and mass transfer; and one undergraduate chemical engineering laboratory course covering fluid flow and heat transfer prior to registering for this course.

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