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Pressure drop in PBR

Pressure drop in PBR. Lec 7 week 10. Pressure Drop and the Rate Law. We now focus our attention on accounting for the pressure drop in the rate law. to write the concentration of reacting species i for gas phase (ideal gas)as For second order reaction carried out in packed bed reactor:

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Pressure drop in PBR

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  1. Pressure drop in PBR Lec7 week 10

  2. Pressure Drop and the Rate Law • We now focus our attention on accounting for the pressure drop in the rate law. to write the concentration of reacting species i for gas phase (ideal gas)as • For second order reaction carried out in packed bed reactor: • Mole balance

  3. Rate law: • Stoichiometric: • The rate law can be written as: • Combine for PBR at constant Temperature: but FA0=v0CA0

  4. We now need to relate the pressure drop to the catalyst weight in order to determine the conversion as a function of catalyst weight.

  5. Flow Through a Packed Bed • The majority d gas-phase reactions are catalyzed by passing the reactant through a packed bed of catalyst particles. • The equation used most to calculate pressure drop in a packed porous bed is the Ergun equation:

  6. In calculating the pressure drop using the Ergun equation, the only parameter that varies with pressure on the right-hand side of Equation is the gas density, ρ. We are now going to calculate the pressure drop through the bed. • Because the reactor is operated at steady state, the mass flow rate at any point down the reactor. (m(kg/s) is equal to the entering mass flow rate, m0,(kg/s)

  7. Example

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