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  1. 1
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  2. 2
    Doraiswami Ramkrishna, The Neal Amundson era. Rapid evolution of chemical engineering science, AIChE Journal, 2013, 59, 9
  3. 3
    K.M. Wagialla, S.S.E.H. Elnashaie, Bifurcation and complex dynamics in fixed-bed catalytic reactors, Chemical Engineering Science, 1995, 50, 17, 2813

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  4. 4
    H. J. Viuoen, N. F. J. Van Rensburg, Application of different criteria for uniqueness to the tubular reactor problem, The Canadian Journal of Chemical Engineering, 1988, 66, 4
  5. 5
    S.N. Lo, A. Cholette, Multiplicity of conversion in a cascade of imperfectly stirred tank reactors, Chemical Engineering Science, 1983, 38, 3, 367

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  6. 6
    Klavs F. Jensen, W.Harmon Ray, The bifurcation behavior of tubular reactors, Chemical Engineering Science, 1982, 37, 2, 199

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  7. 7
    Robert F. Heinemann, Aubrey B. Poore, The effect of activation energy on tubular reactor multiplicity, Chemical Engineering Science, 1982, 37, 1, 128

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  8. 8
    Robert F. Heinemann, Aubrey B. Poore, Multiplicity, stability, and oscillatory dynamics of the tubular reactor, Chemical Engineering Science, 1981, 36, 8, 1411

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  9. 9
    Jesús Alvarez, José A. Romagnolit, George Stephanopoulos, Variable measurement structures for the control of a tubular reactor, Chemical Engineering Science, 1981, 36, 10, 1695

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  10. 10
    K.F. Lin, Multiplicity and uniqueness for binary, exothermic reaction in a non-adiabatic continuous stirred tank reactor, Chemical Engineering Science, 1980, 35, 7, 1537

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  11. 11
    The Mathematical Understanding of Chemical Engineering Systems, 1980,

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  12. 12
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  13. 13
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  14. 14
    K. F. Lin, Concentration multiplicity and stability for autocatalytic reactions in a continuous stirred-tank reactor, The Canadian Journal of Chemical Engineering, 1979, 57, 4
  15. 15
    M. Kubíčekt†, H. Hofmann, V. Hlaváček, Modelling of chemical reactors-XXXII, Chemical Engineering Science, 1979, 34, 4, 593

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  16. 16
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  17. 17
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  18. 18
    Carmo J. Pereira, James J. Carberry, Arvind Varma, Uniqueness criteria for first order catalytic reactions with external transport limitations, Chemical Engineering Science, 1979, 34, 2, 249

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  19. 19
    Dragomir B. Rukur, Multiplicity of steady states in an isothermal batch fluidized bed reactor, Chemical Engineering Science, 1978, 33, 8, 1055

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  20. 20
    S. Kumar, J.H. Seinfeld, Optimal location of measurements in tubular reactors, Chemical Engineering Science, 1978, 33, 11, 1507

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  21. 21
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  22. 22
    C. Georgakis, R. Aris, Neal R. Amundson, Studies in the control of tubular reactors-I General Considerations, Chemical Engineering Science, 1977, 32, 11, 1359

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  23. 23
    A. Varma, C. Georgakis, N.R. Amundson, R. Aris, Computational methods for the tubular chemical reactor, Computer Methods in Applied Mechanics and Engineering, 1976, 8, 3, 319

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  24. 24
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  25. 25
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  26. 26
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  27. 27
    Arvind Varma, Neal R. Amundson, Some general considerations of reversible chemical reactions in batch and tubular reactors, The Canadian Journal of Chemical Engineering, 1974, 52, 5
  28. 28
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