Assume that the fuel inlet temperature is 25C. # Question 1. Calculate the adiabatic flame temperature...
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Assume that the fuel inlet temperature is 25C. # Question 1. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 2. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 3. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 4. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 5. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 6. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 7. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 8. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 9. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 10. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 11. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 12. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 13. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 14. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 15. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 16. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 17. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 18. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 19. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 20. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 21. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 22. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 23. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 24. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 25. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 26. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 27. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 28. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 29. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 30. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 31. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 32. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 33. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 34. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 35. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 36. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 37. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 38. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 39. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. Assume that the fuel inlet temperature is 25C. # Question 1. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 2. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 3. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 4. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 5. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 6. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 7. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 8. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 9. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 10. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 11. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 12. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 13. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 500 K. 14. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 15. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 16. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 17. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 18. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 19. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 20. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 21. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 22. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 23. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 24. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 25. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 26. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 700 K. 27. Calculate the adiabatic flame temperature of Methane (CH4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 28. Calculate the adiabatic flame temperature of Ethane (C2H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 29. Calculate the adiabatic flame temperature of Propane (C3H8) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 30. Calculate the adiabatic flame temperature of n-Butane (C4H10) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 31. Calculate the adiabatic flame temperature of n-Pentane (C5H12) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 32. Calculate the adiabatic flame temperature of n-Hexane (C6H14) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 33. Calculate the adiabatic flame temperature of n-Heptane (C7H16) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 34. Calculate the adiabatic flame temperature of n-Dodecane (C12H26) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 35. Calculate the adiabatic flame temperature of Ethene (C2H4) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 36. Calculate the adiabatic flame temperature of Propene (C3H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 37. Calculate the adiabatic flame temperature of Benzene (C6H6) gas with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 38. Calculate the adiabatic flame temperature of n-Octane (C8H18) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K. 39. Calculate the adiabatic flame temperature of Diesel T-T (C14.4H24.9) liquid with theoretical air of 85%, 100% and 400%, for an inlet air temperature of 1000 K.
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Related Book For
Elementary Principles of Chemical Processes
ISBN: 978-1119498759
4th edition
Authors: Richard M. Felder, ? Ronald W. Rousseau, ? Lisa G. Bullard
Posted Date:
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