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Chemical Reaction Engineering
Standard Deviation based on θ at Small Extents in Flow Pattern, Contacting and Non Ideal Flow Formulas
Standard Deviation based on θ at Small Extents is Calculated using Mean of Pulse Curve and Dispersion Number, which is measure of Spread of Tracer. And is denoted by S.D
S.E
.
Formulas to find Standard Deviation based on θ at Small Extents in Flow Pattern, Contacting and Non Ideal Flow
f
x
Standard Deviation of Spread based on Mean Residence Time for Small Extents of Dispersion
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List of variables in Flow Pattern, Contacting and Non Ideal Flow formulas
f
x
Dispersion Coefficient at Dispersion Number < 0.01
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f
x
Length of Spread for Dispersion Number <0.01
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f
x
Velocity of Pulse for Dispersion Number <0.01
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FAQ
What is the Standard Deviation based on θ at Small Extents?
Standard Deviation based on θ at Small Extents is Calculated using Mean of Pulse Curve and Dispersion Number, which is measure of Spread of Tracer.
Can the Standard Deviation based on θ at Small Extents be negative?
{YesorNo}, the Standard Deviation based on θ at Small Extents, measured in {OutputVariableMeasurementName} {CanorCannot} be negative.
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