NU_VCYL_JAKOB
This function computes free-convection Nusselt number for a vertical isothermal cylinder using the Jakob-Linke-Morgan correlation in ht. It supports optional forcing of laminar or turbulent branch selection.
The model is piecewise in Rayleigh number:
Nu = C\,Ra^n,\qquad Ra = Gr\,Pr
and returns a dimensionless Nusselt number referenced to cylinder height.
Excel Usage
=NU_VCYL_JAKOB(Pr, Gr, turbulent)Pr(float, required): Prandtl number of the fluid (dimensionless).Gr(float, required): Grashof number based on cylinder height (dimensionless).turbulent(bool, optional, default: null): Whether to force turbulent or laminar regime (dimensionless).
Returns (float): Nusselt number based on cylinder height (dimensionless).
Example 1: Jakob Linke Morgan example
Inputs:
| Pr | Gr |
|---|---|
| 0.7 | 20000000000 |
Excel formula:
=NU_VCYL_JAKOB(0.7, 20000000000)Expected output:
310.908
Example 2: Jakob Linke Morgan forced laminar
Inputs:
| Pr | Gr | turbulent |
|---|---|---|
| 0.7 | 500000000 | false |
Excel formula:
=NU_VCYL_JAKOB(0.7, 500000000, FALSE)Expected output:
75.9119
Example 3: Jakob Linke Morgan forced turbulent
Inputs:
| Pr | Gr | turbulent |
|---|---|---|
| 0.7 | 50000000000 | true |
Excel formula:
=NU_VCYL_JAKOB(0.7, 50000000000, TRUE)Expected output:
421.968
Example 4: Jakob Linke Morgan mid range
Inputs:
| Pr | Gr |
|---|---|
| 1 | 8000000000 |
Excel formula:
=NU_VCYL_JAKOB(1, 8000000000)Expected output:
258
Python Code
Show Code
from ht.conv_free_immersed import Nu_vertical_cylinder_Jakob_Linke_Morgan as ht_Nu_vertical_cylinder_Jakob_Linke_Morgan
def Nu_vcyl_Jakob(Pr, Gr, turbulent=None):
"""
Calculate the Nusselt number for a vertical cylinder using Jakob-Linke-Morgan.
See: https://ht.readthedocs.io/en/latest/ht.conv_free_immersed.html
This example function is provided as-is without any representation of accuracy.
Args:
Pr (float): Prandtl number of the fluid (dimensionless).
Gr (float): Grashof number based on cylinder height (dimensionless).
turbulent (bool, optional): Whether to force turbulent or laminar regime (dimensionless). Default is None.
Returns:
float: Nusselt number based on cylinder height (dimensionless).
"""
try:
result = ht_Nu_vertical_cylinder_Jakob_Linke_Morgan(Pr, Gr, turbulent=turbulent)
if result is None:
return "Error: Result is None"
return float(result)
except Exception as e:
return f"Error: {str(e)}"Online Calculator
Prandtl number of the fluid (dimensionless).
Grashof number based on cylinder height (dimensionless).
Whether to force turbulent or laminar regime (dimensionless).