306072 (v.1) ChE 477 Catalytic Combustion
Area: | Department of Chemical Engineering |
Credits: | 12.5 |
Contact Hours: | 3.0 |
Lecture: | 1 x 2 Hours Weekly |
Tutorial: | 1 x 1 Hours Weekly |
Prerequisite(s): | 302260 (v.2) ChE 323 Transport Phenomena or any previous version
AND
302263 (v.2) ChE 325 Reaction Engineering or any previous version
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Syllabus: | General introduction - basic concepts and terminology, chemistry of catalytic combustion. Transport phenomena and conservation equations. Thermodynamic and kinetic considerations. Gas phase reactions. Catalysts preparation and support systems. Catalyst characterisation. Experimental studies and data analyses. Modelling of catalytic combustion processes. Combustion applications. Selective oxidation and hydrocarbon processing. Introduction to environmental catalysis. |
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Unit Outcomes: | On successful completion of this unit students will have mastered the fundamentals of catalysis and principles of catalyst design, preparation, and characterisation. Understood the basic procedures for catalyst selection, testing and evaluation. Performed simple modelling and analyses of catalytic combustion processes, reaction mechanisms and kinetics and reaction rate expression. Gained basic knowledge of catalysis and catalytic combustion for applications in hydrocarbon processing, material synthesis, pollution control and selected speciality applications. Designed and integrated processes involving catalytic reactions and catalysts. |
Text and references listed above are for your information only and current as of September 30, 2003. Please check with the unit coordinator for up-to-date information. |
Unit References: | Richardson, J.T. (1992). Principles of Catalyst Development. New York, Plenum Press. Van Santen, R.A. and Niemantsverdriet, J.W. (1995). Chemical Kinetics and Catalysis. New York, Plenum Press. Warren, B.K. and Oyama, S.T. (1996). Heterogeneous Hydrocarbon Oxidation. Washington D.C., American Chemical Society. |
Unit Texts: | Zhang, D.K. (2001). Catalytic Combustion: The Theory, Analysis and Applications. Curtin University of Technology. |
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Unit Assessment Breakdown: | Five Assignments 25% (5% each), Project 15%, Final Exam 60%. This is by grade/mark assessment. |
Current as of: February 2, 2004
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