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Report : Contents 1. Introduction 3 2. Process Background 4 3. Process Description 5 3.1. Description 3.2. Block Flow Diagram (BFD) 3.3. Process Flow Diagram
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Contents 1. Introduction 3 2. Process Background 4 3. Process Description 5 3.1. Description 3.2. Block Flow Diagram (BFD) 3.3. Process Flow Diagram (PFD) 4. Problem Statement 5. Simulation Methodology 6. Simulation Results and discussion 6.1. Simulation Results 6.1.1. Flowsheet and Stream Tables 9 6.1.2. HYSYS Report 9 6.2. Analysis and Discussion of the Simulation Results 9 6.2.1. Answer to questions 9 6.2.2. Discussion 9 7. Conclusions 8. References 9. Appendices 9. Appendices 13 9.1. Appendix A: HYSYS Report 13 9.2. Any other Appendix 13 Conversion Reactor Consider a stream of N2 and H2 at 300F and 500 psia with mole fraction of 0.3 and 0.7 (respectively), with a molar flow rate of 100lbmole/hr. This stream enters a reactor. Conversion of N2 is 30% and the reactor is isothermal and isobaric. Calculate the properties of outlet streams using PengRobinson equation of state. N2+3H22NH3Step by Step Solution
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