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   Air Standard Cycles PDF
Formulas : 18
Size : 373 kb
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Contents of the Air Standard Cycles PDF

List of 18 Air Standard Cycles Formulas

Actual Air Fuel Ratio
​Go
Air Standard Efficiency for Diesel Engines
​Go
Air Standard Efficiency for Petrol engines
​Go
Air Standard Efficiency given Relative Efficiency
​Go
Mean Effective Pressure in Diesel Cycle
​Go
Mean Effective Pressure in Dual Cycle
​Go
Mean Effective Pressure in Otto Cycle
​Go
Relative Air-Fuel Ratio
​Go
Thermal Efficiency of Atkinson Cycle
​Go
Thermal Efficiency of Diesel Cycle
​Go
Thermal Efficiency of Dual Cycle
​Go
Thermal Efficiency of Ericsson Cycle
​Go
Thermal Efficiency of Lenoir Cycle
​Go
Thermal Efficiency of Otto Cycle
​Go
Thermal Efficiency of Stirling Cycle given Heat Exchanger Effectiveness
​Go
Work Output for Diesel Cycle
​Go
Work Output for Dual Cycle
​Go
Work Output for Otto Cycle
​Go

Variables used in Air Standard Cycles PDF

  1. Cv Molar Specific Heat Capacity at Constant Volume (Joule Per Kelvin Per Mole)
  2. e Expansion Ratio
  3. ma Mass of Air (Kilogram)
  4. mf Mass of Fuel (Kilogram)
  5. P1 Pressure at Start of Isentropic Compression (Kilopascal)
  6. Pd Mean Effective Pressure of Dual Cycle (Kilopascal)
  7. PD Mean Effective Pressure of Diesel Cycle (Kilopascal)
  8. PO Mean Effective Pressure of Otto Cycle (Kilopascal)
  9. r Compression Ratio
  10. Ra Actual Air Fuel Ratio
  11. rc Cut-off Ratio
  12. Ri Stoichiometric Air Fuel Ratio
  13. rp Pressure Ratio
  14. Rp Pressure Ratio in Dual Cycle
  15. Tf Final Temperature (Kelvin)
  16. TH Higher Temperature (Kelvin)
  17. Ti Initial Temperature (Kelvin)
  18. TL Lower Temperature (Kelvin)
  19. V1 Volume at Start of Isentropic Compression (Cubic Meter)
  20. Wd Work Output of Diesel Cycle (Kilojoule)
  21. WD Work Output of Dual Cycle (Kilojoule)
  22. Wo Work Output of Otto Cycle (Kilojoule)
  23. γ Heat Capacity Ratio
  24. ε Effectiveness of Heat Exchanger
  25. εd Thermal Efficiency of Dual Cycle
  26. εo Thermal Efficiency of Otto Cycle
  27. η Efficiency
  28. ηa Thermal Efficiency of Atkinson Cycle
  29. ηd Efficiency of Diesel Cycle
  30. ηe Thermal Efficiency of Ericsson Cycle
  31. ηi Indicated Thermal Efficiency
  32. ηl Thermal Efficiency of Lenoir Cycle
  33. ηo Efficiency of Otto Cycle
  34. ηr Relative Efficiency
  35. ηs Thermal Efficiency of Stirling Cycle
  36. ηth Thermal Efficiency of Diesel Cycle
  37. Φ Relative Air Fuel Ratio

Constants, Functions and Measurements used in Air Standard Cycles PDF

  1. Constant: [R], 8.31446261815324
    Universal gas constant
  2. Function: ln, ln(Number)
    The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function.
  3. Measurement: Weight in Kilogram (kg)
    Weight Unit Conversion
  4. Measurement: Temperature in Kelvin (K)
    Temperature Unit Conversion
  5. Measurement: Volume in Cubic Meter (m³)
    Volume Unit Conversion
  6. Measurement: Pressure in Kilopascal (kPa)
    Pressure Unit Conversion
  7. Measurement: Energy in Kilojoule (KJ)
    Energy Unit Conversion
  8. Measurement: Molar Specific Heat Capacity at Constant Volume in Joule Per Kelvin Per Mole (J/K*mol)
    Molar Specific Heat Capacity at Constant Volume Unit Conversion
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Free Air Standard Cycles PDF

Get Free Air Standard Cycles PDF for Download today. Examples are included after each Formula with a link to a live Calculator! All the Formulas and Calculators support Unit Conversion as well. This PDF features 18 calculators from Mechanical. Inside, you'll discover a list of formulas such as Mean Effective Pressure in Otto Cycle, Mean Effective Pressure in Diesel Cycle and 18 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Air Standard Cycles PDFs!

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