Stripping Factor Formula:
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Definition: The Stripping Factor is the ratio of slope of operating line of stripping to the equilibrium line. If equilibrium line is a curve then the stripping factor is the average at the two ends.
Purpose: This calculator determines the stripping factor (S) when the absorption factor (A) is known, using the inverse relationship between them.
The calculator uses the formula:
Where:
Explanation: The stripping factor is simply the reciprocal of the absorption factor, showing the inverse relationship between these two important mass transfer parameters.
Details: Understanding the stripping factor is crucial in chemical engineering processes like distillation, absorption, and stripping columns where mass transfer between phases occurs.
Tips: Enter the absorption factor (must be greater than 0). The calculator will compute the corresponding stripping factor.
Q1: What is the physical significance of the stripping factor?
A: The stripping factor indicates the efficiency of the stripping process - values greater than 1 indicate effective stripping, while values less than 1 suggest poor stripping conditions.
Q2: How does the absorption factor relate to the stripping factor?
A: They are inversely related. When absorption is efficient (high A), stripping is typically less efficient (low S), and vice versa.
Q3: What's a typical range for absorption factors?
A: Absorption factors typically range from 0.5 to 2.0 in industrial applications, depending on the system and operating conditions.
Q4: When would I need to calculate the stripping factor?
A: When designing or analyzing stripping columns, evaluating mass transfer efficiency, or troubleshooting separation processes.
Q5: Can the stripping factor be less than 1?
A: Yes, when the absorption factor is greater than 1, the stripping factor will be less than 1, indicating the stripping process is less efficient than absorption in that system.