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Mohammad Heshmati; W. David Purvis – Chemical Engineering Education, 2024
Three real-world datasets are introduced for a petroleum engineering capstone design course, providing detailed problem statements, assessment criteria, team-building practices, and required software packages. Two surveys reveal that students prefer real datasets over synthetic ones, and despite initial challenges, students feel proud of their…
Descriptors: Chemical Engineering, Engineering Education, Fuels, Capstone Experiences
Hong, Moo Sun; Sun, Weike; Anthony, Brian W.; Braatz, Richard D. – Chemical Engineering Education, 2022
This article describes experiences with teaching process data analytics and machine learning, including in: (1) a joint undergraduate/graduate course for students in chemical and mechanical engineering and engineering management; and (2) an undergraduate chemical engineering concentration in process data analytics. The article also describes…
Descriptors: Teaching Methods, Graduate Students, Undergraduate Students, Chemical Engineering
Rutter, Charles; Pancorbo, Jennifer – Chemical Engineering Education, 2020
Fermentation is responsible for the production of myriad products across a variety of industrial sectors. In particular, the biomanufacturing industry requires a labor force proficient in fermentation and its associated technologies to drive the production of recombinant protein therapeutics. This paper describes the development of a course that…
Descriptors: Biotechnology, Manufacturing Industry, Biochemistry, Scientific Concepts
Timko, Michael T. – Chemical Engineering Education, 2018
Integrating teaching and research can benefit both instructors and students by providing an enriching, stimulating experience that combines the instructors' interests with topics that are relevant and motivating to students. In keeping with National Science Foundation review criteria, the integrated course captures both intellectual merit, that is…
Descriptors: Undergraduate Students, Chemical Engineering, Energy, Fuels
Gautam, Satyen; Nagarajan, Karthiga; Loh, Kai Chee; Zhou, Kang; Yung, Lanry Lin Y.; Tong, Yen Wah; Li, Zhi – Chemical Engineering Education, 2020
The paper explores the effectiveness of hands-on learning (HOL) as a student-centered model to train first year chemical engineering undergraduates. The pedagogical design of the course uses laboratory sessions, lectures, reflection sessions, projects, and assessments to achieve the course learning outcomes. The adopted assessment methodology…
Descriptors: Experiential Learning, Chemical Engineering, Engineering Education, Undergraduate Students
Clarke, Matthew A.; Giraldo, Carlos – Chemical Engineering Education, 2009
Chemical process simulation is one of the most fundamental skills that is expected from chemical engineers, yet relatively few graduates have the opportunity to learn, in depth, how a process simulator works, from programming the unit operations to the sequencing. The University of Calgary offers a "hands-on" postgraduate course in…
Descriptors: Computer Simulation, Chemical Engineering, Programming, Foreign Countries
Maase, Eric L.; High, Karen A. – Chemical Engineering Education, 2008
"Chemical Engineering Modeling" is a first-semester graduate course traditionally taught in a lecture format at Oklahoma State University. The course as taught by the author for the past seven years focuses on numerical and mathematical methods as necessary skills for incoming graduate students. Recent changes to the course have included Visual…
Descriptors: Graduate Students, Mathematical Models, Chemical Engineering, Programming

Felder, Richard M.; Marsland, David B. – Chemical Engineering Education, 1979
Describes an undergraduate chemical engineering course which was designed at North Carolina State University to introduce the experimental side of chemical process technology. The course lectures, experiments, objectives, evaluation and information sources are also discussed. (HM)
Descriptors: Chemical Industry, Chemistry, College Science, Course Descriptions