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  • CE 428: Chemical Engineering Laboratory IV

    1.00 Credits
    University at Buffalo

    Credits: 1 Prerequisites: CE 39, CE 47 Corequisites: None Type: LAB/LEC A continuation of CE 427.
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  • CE 433: Materials Science and Engineering

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: CHE 30 or CHE 334 Corequisites: None Type: LEC Properties of solids, which chemical engineers need to understand and exploit in regard to chemical processing and industrial equipment; how chemical and physical structures determine the uses of the products of the chemical industry. Crystal structure, crystal defects, and how they dominate mechanical properties. Thermal and electrical properties of solids. Polymer structures and properties. Corrosion: mechanisms and prevention.
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  • CE 434: Chemical Systems and Control

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: CE 1, MTH 306 Corequisites: None Type: LEC Equips engineering students with the fundamental concepts of process control design. An introduction to the benefits of having a good control process is followed by the definitions of the control objectives, feedback and feedforward control, and the various types of variables found in process control problems. Includes the development of dynamic mathematical models for simple processes, using mass and energy balances. Introduces mathematical tools (Laplace Transformations) that help solve such mathematical models as well as define the transfer functions of typical process systems (first and second order systems). Introduces the controller concept, together with the basic principles behind the feedback control loop and its stability characteristics.
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  • CE 435: Introduction to Polymers

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: senior standing or permission of instructor Corequisites: None Type: LEC Classifies polymers with respect to structure and formation reaction; relations between chemical structure and physical properties; some characteristics of polymer solutions; mechanical behavior; and engineering properties.
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  • CE 442: Engineering and Process Economics

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: senior standing or permission of instructor Corequisites: None Type: LEC Economic aspects of chemical engineering: time value of money, including interest and investments; alternative methods of analysis, such as annual costs, percent, and rate of return; process costs and concepts, including cost estimation, and chemical equipment and plant costs; a small cost-related process design project.
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  • CE 443: Chemical Process Analysis and Synthesis

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: CE 407 Corequisites: CE 408 Type: LEC Introduces fundamentals of process design utilizing computer techniques and methods.
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  • CE 444: Chemical Process Control

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: senior standing or permission of instructor Corequisites: None Type: LEC/LAB Introduces principles of process control. Feedback, feedforward, and open-loop control. Effects of major controller actions on typical processes: on-off, proportional, integral, and derivative.Predicts the dynamic response of a process through mathematical models. Frequency response analysis; introduces tuning of a system.
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  • CE 446: Biochemical Engineering

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: senior standing or permission of instructor Corequisites: None Type: LEC Significant microbial products, organisms, and substrates; directing microbial activity by random mutation and recombinant DNA; kinetics of growth and product formation; types of fermenters; aeration and agitation; scale-up; sterilization; product separation.
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  • CE 447: Biological Transport and Kinetics

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: BIO 01, CE 318, CE 39 Corequisites: None Type: LEC Discusses the application of biological transport and kinetics principles in normal human physiology, disease states and during treatment. Focuses on selected aspects of the nature of receptor-ligand interactions, cell adhesion mechanics, drug delivery, and biological transport in organs. Topics include experimental methods for measuring receptor-ligand interactions, models for receptor-ligand binding and analysis of real data, methods for measuring and analyzing cell adhesion both in suspension and substrate based assays, cardiovascular fluid mechanics, blood components and blood viscosity measurements, flow in arteries and microcirculation, fahraeus effect, engineering principles for drug delivery including diffusion and convective transport of drugs to organs, pharmacokinetic modeling, drug delivery system design and controlled drug release, transport between blood and tissues, and between kidneys and tumors.
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  • CE 448: Cellular and Molecular Bioengineering

    3.00 Credits
    University at Buffalo

    Credits: 3 Prerequisites: senior standing or permission of instructor Corequisites: None Type: LEC Introduces biomedical engineering with emphasis on vascular engineering. Gives students an understanding of how quantitative approaches can be combined with biological information to advance knowledge in the areas of thrombosis, inflammation biology and cancer metastasis. Emphasizes cellular and molecular bioengineering methods.
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