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Reactor Design for Selective Product Distribution

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Presentation on theme: "Reactor Design for Selective Product Distribution"— Presentation transcript:

1 Reactor Design for Selective Product Distribution
S,S&L Chapt. 7

2 Overview Parallel Reactions Series Reactions Independent Reactions
A+BR (desired) AS Series Reactions ABC(desired)D Independent Reactions AB (desired) CD+E Series Parallel Reactions A+BC+D A+CE(desired) Mixing, Temperature and Pressure Effects

3 Examples Ethylene Oxide Synthesis CH2=CH2 + O22CO2 + 2H2O
CH2=CH2 + O2CH2-CH2(desired) O

4 Examples Diethanolamine Synthesis

5 Examples Butadiene Synthesis, C4H6, from Ethanol

6 Rate Selectivity Parallel Reactions Rate Selectivity
A+BR (desired) A+BS Rate Selectivity (αD- αU) >1 make CA as large as possible (βD –βU)>1 make CB as large as possible (kD/kU)= (koD/koU)exp[-(EA-D-EA-U)/(RT)] EA-D > EA-U T EA-D < EA-U T

7 Reactor Design to Maximize Desired Product

8 Maximize Desired Product
Series Reactions AB(desired)CD Plug Flow Reactor Optimum Time in Reactor

9 Fractional Yield (k2/k1)=f(T)

10 Real Reaction Systems More complicated than either
Series Reactions Parallel Reactions Effects of equilibrium must be considered Confounding heat effects All have Reactor Design Implications

11 Engineering Tricks Reactor types
Multiple Reactors Mixtures of Reactors Bypass Recycle after Separation Split Feed Points/ Multiple Feed Points Diluents Temperature Management

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