Universidade Federal do Rio Grande do Norte Natal, 04 de Novembro de 2024

Resumo do Componente Curricular

Dados Gerais do Componente Curricular
Tipo do Componente Curricular: DISCIPLINA
Unidade Responsável: PROGRAMA DE PÓS-GRADUAÇÃO EM ENGENHARIA QUÍMICA (14.29)
Código: PEQ5001
Nome: FENÔMENOS DE TRANSPORTE
Carga Horária Teórica: 60 h.
Carga Horária Prática: 0 h.
Carga Horária Total: 60 h.
Pré-Requisitos:
Co-Requisitos:
Equivalências:
Excluir da Avaliação Institucional: Não
Matriculável On-Line: Sim
Método de Avaliação: CONCEITO
Horário Flexível da Turma: Não
Horário Flexível do Docente: Sim
Obrigatoriedade de Nota Final: Sim
Pode Criar Turma Sem Solicitação: Não
Necessita de Orientador: Não
Exige Horário: Sim
Permite CH Compartilhada: Não
Permite Múltiplas Aprovações: Não
Quantidade de Avaliações: 1
Ementa/Descrição: Em fenômenos de transporte são ministrados balanços macroscópicos de transporte, no estado estacionário e em regime transiente; balanços microscópicos de transporte no estado estacionário e, balanços microscópicos de transporte em regime transiente. Ocasionalmente podem ser incluídos temas especiais tais como camada limite e métodos numéricos.
Referências: São aconselhados como livros básicos de texto para a disciplina, os de Bird et al. (1960, 2002), Slattery (1999) e Welty et al. (1969), que são apresentados a seguir. A farta lista de livros de matemática, física, reatores e termodinâmica são importantes auxiliares para o desenvolvimento da disciplina fenômenos de transporte, e podem ser escolhidos à vontade pelos alunos. ABRAMOWITZ, M., STEGUN, I.A. Handbook of mathematical functions. Dover, 1973. Alonso, M. Finn, E. Physics, Addison Westley Longman, 1992. Amundson, N.R. Mathematical methods in chemical engineering, matrices and their application, Prentice-Hall, 1966. Aris, R. Vectors, tensors, and the basic equations of fluid mechanics, Prentice-Hall, 1962. Arpaci, V. Conduction heat transfer, Addison-Wesley, 1966. Astarita, G. Mass transfer with chemical reaction, Elsevier, 1967. Batchelor, G.K. An introduction to fluid mechanics, Cambridge University Press, 1967. Belfiore, L.A. Transport phenomena for chemical reactor design, Wiley, 2003. Bird, R.B., Steward, W.E., Lightfood, E. Transport phenomena, Wiley, 1960. Bird, R.B., Steward, W.E., Lightfood, E. Transport phenomena, Wiley, 2002. Boas, M.L. Mathematical methods in physical science, Wiley, 1983. Callen, H.B. Thermodynamics and an introduction to thermostatistics, Wiley, 1985. Carslaw, H.S., Jaeger, J.C. Conduction of heat in solids, Oxford University Press, 1980. Churcill, R.V. Introduction to complex variables and applications, McGraw-Hill, 1948. Churcill, R.V. Operational mathematics, McGraw Hill, 1958. Crank, J. The mathematics of diffusion, Clarendon Press, 1976. de Groot, S., Mazur, P. Nonequilibrium thermodynamics, North Holland, Amesterdam, 1962. Eckert, E.R.G, Drake, R.M.Jr. Heat and mass transfer, McGraw-Hill, 1959. Erdélyi, A., Magnus, W., Oberhettinger, F., Tricomi, F.G. Tables of integral transforms, McGraw-Hill, 1954. Froment, G.F., Bischoff, K.B. Chemical reactor analysis and design, Wiley, 1990. Geankoplis, C.J. Transport processes and separation process principles, Prentice Hall PTR, 2003. Greenberg, M.D. Advanced engineering mathematics, Prentice-Hall, 1998. Halliday, D., Resnick, R., Walker, J. Fundamentals of physics, Wiley, 2001. Hildebrand, F.B. Advanced calculus for applications, Prentice-Hall, 1962. Hirschfelder, J.O., Curtiss, C.F., Bird, R.B. Molecular theory of gases and liquids, Wiley, 1964. Hougen, O.A., Watson, K.M., Ragatz, R.A. Chemical process principles, Wiley, 1959. Jakob, M. Heat transfer, Wiley, 1949. Jenson, V.G., Jeffreys, G.V. Mathematical methods in chemical engineering, Academic Press, 1977. Jonker, H., Hanjalic, K., Tummers, M.J., Kenjeres S. Analysis and modelling of physical transport phenomena, VSSD, 2009. Jost, W. Diffusion, Academic Press, 1952. Kennard, E.H. Kinetic theory of gases, McGraw-Hill, 1938. King, C.J. Separation processes, McGraw-Hill, 1971. Knudsen, M. The kinetics theory of gases, Methuen, 1950. Kreyszig, E. Matemática Superior, LTC, 1985. Lamb, H. Hydrodynamics, Cambridge University Press, 1895. Landau, L.D., Lifshitz, E.M. Fluid mechanics, Pergamon Press, 1987. Levi, M. The mathematical mechanic: using physical reasoning to solve problems, Princeton University Press, 2009. Luikov, A.V. Analytical heat diffusion theory, Academic Press, 1968. Marshall, W.R.Jr., Pigford, R.L. Applications of differential equation of chemical engineering problems, University of Delaware Press, 1947. McCabe, W.L., Smith, J.C., Harriot. P. Unit operations of chemical engineering, McGraw-Hill, 2000. Mickley, A.S., Sherwood, T.K., Reid, C.E. Applied mathematics in chemical engineering, McGrawHill, 1957. Modell, M., Reid, R.C. Thermodynamics and Its applications in chemical engineering, Prentice-Hall, 1983. Morse, P.M., Feshbach, H. Methods of theoretical physics, McGraw-Hill, 1953. Polya, G. A arte de resolver problemas, Interciências, 1995. Prager, W. Mechanics of continua, Ginn, Boston, 1961. Reid, R.C., Prausnitz, J.M., Sherwood, T.K. The properties of gases and liquids, McGraw-Hill, 1977. Rice, R.G., Do, D.D. Applied mathematics and modeling for chemical engineers, Wiley, 1995. Sandler, S.I. Chemical and engineering thermodynamics, Wiley, 1989. Schiesser, W.E., Silebi, C.A. Computational transport phenomena: numerical methods for the solution of transport problems, Cambridge University Press, 1997. Schlichting, h. Boundary layer theory, McGraw-Hill, 1979. Sherwood, T.K., Pigford, R.L., Wilke, C.R. Mass transfer, McGraw-Hill, 1975. Slattery, J.C. Advanced transport phenomena, Cambridge University Press, 1999. Sneddon, I.N. Elements of partial differential equation, Dover, 1996. Sneddon, I.N. Use of integral transform, McGraw-Hill, 1972. Souza-Santos, M.L. Analytical and approximate methods in transport phenomena, CRC Press, 2008. Spiegel, M.R., Lipschutz, S, Liu, J. Mathematical handbook of formulas and tables, McGraw-Hill, 2009. Tipler, P.A. Physics, Worth, 1982. Tosun, I. Modeling in transport phenomena, Elsevier, 2007. Treybal, R.E. Mass transfer operations, McGraw-Hill, 1980. Truesdell, C. The elements of continuum mechanics, Springer-Verlag, 1966. van Wylen, G.J., Sonntag, R.E. Fundamentals of classical thermodynamics, Wiley, 1965. Walas, S.M. Modeling with differential equations in chemical engineering, Butterworth-Heinemann, 1991. Welty, J.R., Wickes, C.E., Wilson, R.E. Fundamentals of momentum, heat, and mass transfer, Wiley, 1969. Whitaker, S. Introduction to fluid mechanics, Prentice-Hall, 1968. Whitaker, S. Fundamental of heat transfer, Krieger Publishing, 1983. Wylie, C.R., Barrett, L.C. Advanced engineering mathematics, McGraw-Hill, 1995.

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