Transformation Processes
1
2018-2019
02016360
Chemical Engineering
Portuguese
English
Face-to-face
SEMESTRIAL
5.0
Elective
2nd Cycle Studies - Mestrado
Recommended Prerequisites
Topics of Mass and Energy Balances, Transport Phenomena (momentum, energy and mass), Partial Differential Equations.
Teaching Methods
The syllabus will be taught in contact lectures with practical examples and discussion of the problems solved by the students. Whenever possible, the resolution of home problems or in classroom will be proposed to studants, aiming to promote a continued study.
Learning Outcomes
Development of competences in the domain of Chemical Reactors Engineering with ideal behavior, aiming the analysis and design of homogeneous reactors, including reactional systems for kinetic parameters determination. The Residence Time Distribution theory will allow the identification of the deviations of the ideal behavior of reactors. These studies will be in line with the new perspectives of Chemical Engineering molecular based, integrating multiscale systems analysis.
Work Placement(s)
NoSyllabus
Chemical kinetics
Reactant conversion and generalized reaction advance. Chemical reaction rates. Kinetic data analysis.
- Continuous Stirred Tank Reactors
Mass and heat balances in dynamic and steady-state regime. Steady-state regime. Multiplicity of steady states. Cascade reactors.
- Batch Reactors
Mass and heat balances in dynamic regime.
- Semi-Batch Reactors
Mass and heat balances in dynamic regime.
- Plug Flow Reactors
Mass and heat balances in dynamic and steady-state regime.
- Ideal Reactors: Comparative Studies.
Mass and heat balances. Residence times reactors selection. Reactors association.
- Ideal reactors: Yield and Selectivity
- Residence time distribution
Residence time distribution functions. Non-ideal flow models. RTD, mixture and chemical reactor performance.
Head Lecturer(s)
Rosa Maria de Oliveira Quinta Ferreira
Assessment Methods
Final assessment
Resolution Problems: 20.0%
Exam: 80.0%
Continuous assessment
Resolution Problems: 20.0%
Frequency: 80.0%
Bibliography
Portal Laboratórios Virtuais de Processos Químicos, DEQ-FCTUC, http://labvirtual.eq.uc.pt
Fogler, H.S. Elements of Chemical Reaction Engineering. 3rd ed., Prentice-Hall, N.J. 1999.
Lemos, F.; Lopes, J. M.; Ramôa Ribeiro, F. Reactores Químicos. IST Press, Lisboa, 2002.
Nunes dos Santos, A. M. Reactores Químicos. Vol.I, Fundação Calouste Gulbenkian, Lisboa,1990.
Levenspiel, O. Chemical Reaction Engineering. 3rd ed. John Wiley, New York, 1999.
Cooper, A.R.; Jeffreys, G. V. Chemical Kinetics and Reactor Design. Olivier and Boyd, Edinburg, 1971.
Aris, R. Elementary Chemical Reactor Analysis, Prentice-Hall, New Jersey, 1986.
Villermaux, J. Génie de la Réaction Chimique. Lavoisier, Paris, 1982.
Smith, J. M. Chemical Engineering Kinetics. McGraw- Hill, New York, 1970.
Simões, P.N.N.L. Introdução à Teoria da Distribuição de Tempos de Residência, Imprensa da Universidade de Coimbra, Coimbra. 2006.