A special program which affords a limited number of students the opportunity to conduct research under the guidance of one of the faculty. Students are graded on the submission of one- page summary reports on any two lectures. Students who have a strong interest in research are encouraged to discuss research possibilities with the faculty. For students entering the PhD program with a BS degree, a total of 12 courses (36 credit hours) is required. Recommended preparation: ECHE 363. This course will introduce and implement basic data acquisition concepts and LabVIEW virtual instrumentation programming, providing hands-on experience with hardware and software. To enable its graduates to lead the advancement of technology, the Case School of Engineering offers fourteen degree programs at the undergraduate level (twelve engineering degrees, plus the BS in computer science and the BS in data science and analytics). Prereq or Coreq: ENGR 225. Students interested in this option should submit a petition to their advisor naming and explaining the coherent theme, why this theme complements the chemical engineering core for him/her, and how the three courses fit into this theme. The experience includes elements from the following tasks: development of teaching or lecture materials, teaching recitation groups, providing laboratory assistance, tutoring, exam/quiz/homework preparation and grading, mentoring students. Chemical engineering (ChE) encompasses the development, application, and operation of the processes in which chemical and/or physical changes of material are involved. Environmental and plant safety issues. certificate) that they completed this training to their advisors. Relationship between mechanism and reaction rate and brief introduction to catalysis. Investigation of suspensions, emulsions, gels, and association colloids. This course is a continuation of ECHE 401 and is designed to develop skills in writing proposals for funding research projects. Chemical Engineering Analysis. Recommended preparation: ECHE 362, ECHE 365, and ECHE 398. Students can design a custom breadth elective sequence, consisting of three courses (9 credits) that fit in one coherent technical or professional theme. She received her M.S. She received her B.S. Offered as ECHE 381 and ECHE 480. Students must complete a sequence in ⦠Introductory course in communication for Chemical Engineering graduate students: preparation of first proposal for thesis, preparation of technical reports and scientific papers, literature sources, reviewing proposals, and manuscripts for professional journals, and making effective technical presentations. Mathematical and computational modeling developed for diagnostic and therapeutic applications. 3 Units. Topics in Chemical Engineering. students. Process analysis, heuristics and optimization. Analytical and numerical methods to simulate in vivo processes as well as to develop diagnostic and therapeutic methods. Engineering provides access to state- of-the-art research instrumentation ECHE 362D. is committed to a leadership role in research and education in frontier areas of research and technology where progress derives from the conjunction of many different traditional research disciplines. general-bulletin@case.edu / Site Feedback, Apply The course will cover: understanding what findings warrant publication, factors affecting journal selection, formatting requirements of journals, publication-quality figures, appropriate material for each of the sections of the paper. 4 Units. CHE 697. Prereq: Graduate student standing. This course affords a student the opportunity to conduct research under the guidance of one of the faculty, as part of the Chemical Engineering Research breadth elective sequence. Students who matriculated prior to Fall 2019 can find their requirements and suggested program of study in the General Bulletin for the year they matriculated. This course will provide an introduction to membrane transport mechanisms including solution diffusion, pore-flow and active transport. ECHE 377. Students in this specialization take CHEN 5800 and Biochemical Engineering Technical Electives (9 hou⦠Current active research topics include: Daniel Lacks, PhD(Harvard University)C. Benson Branch Professor of Chemical Engineering, Department ChairMolecular simulation, statistical mechanics, triboelectric charging, Rohan N. Akolkar, PhD(Case Western Reserve University)F. Alex Nason ProfessorElectrochemical phenomena in next-generation batteries, photovoltaics and semiconductor devices, Harihara Baskaran, PhD(The Pennsylvania State University)ProfessorTransport phenomena in biology and medicine, Christine Duval, PhD(Clemson University)Assistant ProfessorMembranes, radiochemical separations, Donald L. Feke, PhD(Princeton University)Distinguished University Professor and Vice Provost for Undergraduate EducationColloidal and transport phenomena, dispersive mixing, particle science and processing, Burcu Gurkan, PhD(University of Notre Dame)Assistant ProfessorEnergy storage, nonflammable electrolytes, electrode fabrication, electrochemical separation processes, Uziel Landau, PhD(University of California, Berkeley)ProfessorElectrochemical engineering, modeling of electrochemical systems, electrodeposition, batteries, fuel cells, electrolyzers, corrosion, Chung-Chiun Liu, PhD(Case Institute of Technology)Distinguished University Professor and Wallace R. Persons Professor of Sensor Technology and ControlElectrochemical sensors, electrochemical synthesis, electrochemistry related to electronic materials, Heidi B. Martin, PhD(Case Western Reserve University)Associate ProfessorConductive diamond films; electrochemical sensors; chemical modification of surfaces for electrochemical and biomedical applications; biomaterials; microfabrication of sensors and devices, Julie Renner, PhD(Purdue University)Assistant ProfessorElectrochemical engineering, protein engineering, biomimetic materials, regenerative medicine, Robert F. Savinell, PhD(University of Pittsburgh)Distinguished University Professor and George S. Dively ProfessorElectrochemical engineering, electrochemical reactor design and simulation, electrode processes, batteries and fuel cells, Jesse S. Wainright, PhD(Case Western Reserve University)Research ProfessorElectrochemical power sources: fuel cells, batteries, supercapacitors; biomedical applications, Christopher Wirth, PhD(Carnegie Mellon)Assistant ProfessorColloids, multiphase materials, John C. Angus, PhD(University of Michigan)Emeritus Professor, J. Adin Mann Jr., PhD(Iowa State University)Emeritus Professor, Syed Qutubuddin, PhD(Carnegie Mellon University)Emeritus Professor.
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