Descriptor
Source
| Chemical Engineering Education | 5 |
Author
| Douglas, J. M. | 1 |
| Helfferich, Friedrich G. | 1 |
| Kirkwood, R. L. | 1 |
| McCready, Mark J. | 1 |
| Miranda, R. | 1 |
| Sanders, Stuart A. | 1 |
| Sommerfeld, Jude T. | 1 |
Publication Type
| Guides - Classroom - Teacher | 5 |
| Journal Articles | 5 |
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| Practitioners | 5 |
| Teachers | 5 |
| Administrators | 1 |
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Peer reviewedHelfferich, Friedrich G. – Chemical Engineering Education, 1989
Points out a different and much simpler approach for the study of equilibria of multiple and heterogeneous chemical reactions. A simulation on coal methanation is used to teach the technique. An example and the methodology used are provided. (MVL)
Descriptors: Chemical Engineering, Chemical Equilibrium, Chemical Reactions, Coal
Peer reviewedMcCready, Mark J. – Chemical Engineering Education, 1989
A course where students were required to choose projects and provide studies of the feasibility, consumer need, and process design is discussed. Other projects such as advertising campaigns used to encourage student creativity are discussed. The need to keep second semester seniors interested is stressed. (MVL)
Descriptors: Chemical Engineering, Chemical Industry, Chemical Reactions, College Science
Peer reviewedSanders, Stuart A.; Sommerfeld, Jude T. – Chemical Engineering Education, 1989
Follows the increase of the pH in a solution of vinegar during neutralization with commercial antacid tablets. Provided are background information, equipment details, procedures, and details of the data analysis. (MVL)
Descriptors: Chemical Analysis, Chemical Engineering, Chemical Reactions, Chemistry
Peer reviewedDouglas, J. M.; Kirkwood, R. L. – Chemical Engineering Education, 1989
Discussed is a method to teach undergraduate students how to complete a conceptual design. Presents three tools to use: (1) how to use order-of-magnitude arguments to simplify problems, (2) how to derive design heuristics, and (3) how to decompose large problems into a set of small, simple problems. (Author/MVL)
Descriptors: Chemical Engineering, College Science, Course Content, Engineering
Peer reviewedMiranda, R. – Chemical Engineering Education, 1989
Described is a heterogeneous catalysis course which has elements of materials processing embedded in the classical format of catalytic mechanisms and surface chemistry. A course outline and list of examples of recent review papers written by students are provided. (MVL)
Descriptors: Chemical Analysis, Chemical Engineering, Chemical Industry, Chemical Reactions
