Water Gas Shift Reactor Design

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AY0809 Sem 2

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Water Gas Shift Reactor Design

  1. 1. Water Gas Shift Reactor Design<br />CN2116 Group 28<br />Introduction<br />Executive Summary<br />Simulation<br />Features<br />Conclusion<br />Ma Haotian<br />Li lan<br />Liu Yi Fei<br />Luo Yu<br />Shan Yu<br />
  2. 2. Introduction<br />WGS Reactor Design<br />
  3. 3. Hydrogen supply for mass ammonia industrial synthesis<br />Design Objective<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  4. 4. Executive Summary<br />WGS Reactor Design<br />
  5. 5. Reactor Set-up<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  6. 6. Feed Composition<br />Design Specifications<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  7. 7. Catalyst Properties<br />Design Specifications (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  8. 8. HTS Reactor Dimensions<br />Design Specifications (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  9. 9. LTS Reactor Dimensions<br />Design Specifications (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  10. 10. Process Specifications<br />Design Specifications (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  11. 11. Simulation<br />WGS Reactor Design<br />
  12. 12. Governing Equations<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  13. 13. Governing Equations (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  14. 14. Governing Equations (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  15. 15. Assumptions<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  16. 16. Methodology<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  17. 17. Simulation Results<br />The highest conversion for HTS inlet temperature 320.000000 Celsius is 0.810000 outlet temperature 362.849043 Celsius<br />The highest conversion for LTS inlet temperature 200.000000 Celsius is 0.990500 outlet temperature 208.682034 Celsius<br />HTS reactor volume is 88.687919 m^3 <br />LTS reactor volume is 18.837752 m^3<br />Total volume is 107.525670 m^3<br />HTS reactor pressure drop is 14807.220752 Pa <br />LTS reactor pressure drop is 2505.309835 Pa<br />Total pressure drop is 17312.530587 Pa<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  18. 18. Simulation Results<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  19. 19. Features<br />WGS Reactor Design<br />
  20. 20. Features<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  21. 21. Features (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  22. 22. Features (cont)<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />
  23. 23. Conclusion<br />WGS Reactor Design<br />Intro<br />Exe. Summary<br />Simulation<br />Features<br />Conclusion<br />

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