Powerlaw with coefficient for mass flow rate
This model describes the one-directional pressure driven air
flow through an opening, using the equation
ṁ = k
Δpm,
where ṁ is the mass flow rate in kg/s, k is a
flow coefficient, Δp is the pressure difference in Pa, and
m is the flow exponent.
A similar model is also used in the CONTAM software (Dols and
Walton, 2015). Dols and Walton (2002) recommend to use for the flow
exponent m=0.6 to m=0.7 if the flow exponent is not
reported with the test results.
References
- ASHRAE, 1997. ASHRAE Fundamentals, American
Society of Heating, Refrigeration and Air-Conditioning Engineers,
1997.
- Dols and Walton, 2002. W. Stuart Dols and George N.
Walton, CONTAMW 2.0 User Manual, Multizone Airflow and
Contaminant Transport Analysis Software, Building and Fire
Research Laboratory, National Institute of Standards and
Technology, Tech. Report NISTIR 6921, November, 2002. [1]
- W. S. Dols and B. J. Polidoro,2015. CONTAM
User Guide and Program Documentation Version 3.2, National
Institute of Standards and Technology, NIST TN 1887, Sep. 2015.
doi: 10.6028/NIST.TN.1887.
- February 2, 2022, by Michael Wetter:
Revised implementation.
This is for IBPSA,
#1436.
- Apr 6, 2021, by Klaas De Jonge:
First Implementation. Model expecting direct input of mass flow
powerlaw coefficients.
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