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Lecture 21

Lecture 21. Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they take place. Today’s lecture. CSTR With Heat Effects Multiple Steady States Ignition and Extinction Temperatures.

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Lecture 21

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  1. Lecture 21 Chemical Reaction Engineering (CRE) is the field that studies the rates and mechanisms of chemical reactions and the design of the reactors in which they take place.

  2. Today’slecture • CSTR With Heat Effects • Multiple Steady States • Ignition and Extinction Temperatures

  3. CSTR with Heat Effects Courtesy of Pfaudler, Inc.

  4. Unsteady State Energy balance Neglect Using

  5. Unsteady State Energy balance We obtain after some manipulation: Collecting terms with and high coolant flow rates, and

  6. Unsteady State Energy balance

  7. Unsteady State Energy balance

  8. Unsteady State Energy balance If G(T) > R(T) TemperatureIncreases If R(T) > G(T) TemperatureDecreases

  9. Steady State Energy balance for CSTRs At Steady State Solving for X.

  10. Steady State Energy balance for CSTRs Solving for X Solving for T

  11. Energy balance for CSTRs

  12. Energy balance for CSTRs

  13. Energy balance for CSTRs Increasing T0 R(T) Variation of heat removal line with inlettemperature. T

  14. Energy balance for CSTRs κ=∞ R(T) κ=0 T0 Increase κ Ta T Variation of heat removal line with κ (κ=UA/CP0FA0)

  15. 1) Mole Balance: 2) Rate Law:

  16. 3) Stoichiometry: 4) Combine:

  17. Multiple Steady States (MSS) Variation of heat generation curve with space-time.

  18. Multiple Steady States Finding Multiple Steady States with T0 varied

  19. Multiple Steady States Finding Multiple Steady States with T0 varied

  20. Multiple Steady States Temperature ignition-extinction curve

  21. Multiple Steady States Stability of multiple state temperatures

  22. MSS - Generating G(T) and R(T) Need to solve for X after combining mole balance rate law and stoichiometry.

  23. MSS - Generating G(T) and R(T) For a first order irreversible reaction Parameters Thenplot G and R as a function of T.

  24. End of Lecture 21

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