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   Important Formulas in Distillation Mass Transfer Operation PDF
Formulas : 20
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Contents of the Important Formulas in Distillation Mass Transfer Operation PDF

List of 20 Important Formulas in Distillation Mass Transfer Operation

Boil-Up Ratio
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Equilibrium Vaporization Ratio for Less Volatile Component
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Equilibrium Vaporization Ratio for More Volatile Component
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External Reflux Ratio
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Feed Q-Value in Distillation Column
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Internal Reflux Ratio
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Minimum Number of Distillation Stages by Fenske's Equation
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Mole Fraction of MVC in Feed from Overall and Component Material Balance in Distillation
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Moles of Volatile component Volatilized by Steam with Trace amounts of Non-Volatiles
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Moles of Volatile component Volatilized by Steam with Trace amounts of Non-Volatiles at Equilibrium
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Moles of Volatile component Volatilized from mixture of Non-Volatiles by Steam
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Moles of Volatile component Volatilized from mixture of Non-Volatiles by Steam at Equilibrium
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Murphree Efficiency of Distillation Column Based on Vapour Phase
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Overall Efficiency of Distillation Column
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Relative Volatility using Equilibrium Vaporization Ratio
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Relative Volatility using Mole Fraction
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Relative Volatility using Vapour Pressure
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Total Feed Flowrate of Distillation Column from Overall Material Balance
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Total Pressure using Mole Fraction and Saturated Pressure
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Total Steam Required to Vaporize Volatile Component
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Variables used in Important Formulas in Distillation Mass Transfer Operation PDF

  1. D Distillate Flowrate from Distillation Column (Mole per Second)
  2. D Distillate Flowrate (Mole per Second)
  3. E Vaporizing Efficiency
  4. EMurphree Murphree Efficiency of Distillation Column
  5. Eoverall Overall Efficiency of Distillation Column
  6. F Feed Flowrate to Distillation Column (Mole per Second)
  7. Hv-f Heat Required to Convert Feed to Saturated Vapor (Joule Per Mole)
  8. KLVC Equilibrium Vaporization Ratio of LVC
  9. KMVC Equilibrium Vaporization Ratio of MVC
  10. L Internal Reflux Flowrate to Distillation Column (Mole per Second)
  11. L0 External Reflux Flowrate to Distillation Column (Mole per Second)
  12. mA Moles of Volatile Component (Mole)
  13. mAf Final Moles of Volatile Component (Mole)
  14. mAi Initial Moles of Volatile Component (Mole)
  15. mc Moles of Non-Volatile Component (Mole)
  16. mS Moles of Steam (Mole)
  17. Ms Total Steam Required to Vaporize Volatile Comp (Mole)
  18. Nac Actual Number of Plates
  19. Nm Minimum Number of Stages
  20. Nth Ideal Number of Plates
  21. P Total Pressure of System (Pascal)
  22. PLVC Partial Pressure of Less Volatile Component (Pascal)
  23. PMVC Partial Pressure of More Volatile Component (Pascal)
  24. PT Total Pressure of Gas (Pascal)
  25. PaSat Saturated Vapour Pressure of More Volatile Comp (Pascal)
  26. PbSat Saturated Vapour Pressure of Less Volatile Comp (Pascal)
  27. Pvaporvc Vapor Pressure of Volatile Component (Pascal)
  28. q Q-value in Mass Transfer
  29. R External Reflux Ratio
  30. RInternal Internal Reflux Ratio
  31. Rv Boil-Up Ratio
  32. V Boil-Up Flowrate to the Distillation Column (Mole per Second)
  33. W Residue Flowrate from Distillation Column (Mole per Second)
  34. X Mole Fraction of MVC in Liq Phase
  35. xA Mole Fraction of Volatile Comp in Non-Volatiles
  36. xD Mole Fraction of More Volatile Comp in Distillate
  37. xF Mole Fraction of More Volatile Component in Feed
  38. xLiquid Mole Fraction of Component in Liquid Phase
  39. xLVC Mole Fraction of LVC in Liquid Phase
  40. xMVC Mole Fraction of MVC in Liquid Phase
  41. xW Mole Fraction of More Volatile Comp in Residue
  42. yGas Mole Fraction of Component in Vapor Phase
  43. yLVC Mole Fraction of LVC in Vapor Phase
  44. yMVC Mole Fraction of MVC in Vapor Phase
  45. yn Average Mole Fraction of Vapour on Nth Plate
  46. yn+1 Average Mole Fraction of Vapour at N+1 Plate
  47. yn* Average Mole Fraction at Equilibrium on Nth Plate
  48. α Relative Volatility
  49. αavg Average Relative Volatility
  50. λ Molal Latent Heat of Vaporization of Saturated Liq (Joule Per Mole)

Constants, Functions and Measurements used in Important Formulas in Distillation Mass Transfer Operation PDF

  1. 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.
  2. Function: log10, log10(Number)
    The common logarithm, also known as the base-10 logarithm or the decimal logarithm, is a mathematical function that is the inverse of the exponential function.
  3. Measurement: Amount of Substance in Mole (mol)
    Amount of Substance Unit Conversion
  4. Measurement: Pressure in Pascal (Pa)
    Pressure Unit Conversion
  5. Measurement: Molar Flow Rate in Mole per Second (mol/s)
    Molar Flow Rate Unit Conversion
  6. Measurement: Energy Per Mole in Joule Per Mole (J/mol)
    Energy Per Mole Unit Conversion
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Free Important Formulas in Distillation Mass Transfer Operation PDF

Get Free Important Formulas in Distillation Mass Transfer Operation 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 20 calculators from Mass Transfer Operations. Inside, you'll discover a list of formulas such as Boil-Up Ratio, External Reflux Ratio and 20 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Important Formulas in Distillation Mass Transfer Operation PDFs!

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