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PF louvered-fin DP

 

 

The procedure: 

 

CHX_DP_PF_Louvered_Fin(TypeHX$, m_dot, A_fr_tot, b_2, L, Fluid$, T_i, T_o, P: DELTAP)

 

provides the pressure drop associated with a louvered-fin compact heat exchanger surface.  These data are from Kays and London (1994).

 

Inputs

TypeHX$: string identifying the geometry 

 3/8-6.06:  'PF_louvered-fin_38_606'

 3/8(a)-6.06: 'PF_louvered-fin_38a_606'

  1/2-6.06: 'PF_louvered-fin_12_606'

  1/2(a)-6.06: 'PF_louvered-fin_12a_606'

  3/8-8.7: 'PF_louvered-fin_38_87'

  3/8(a)-8.7: 'PF_louvered-fin_38a_87'

  3/16-11.1: 'PF_louvered-fin_316_111'

   1/4-11.1: 'PF_louvered-fin_14_111'

  1/4(b)-11.1: 'PF_louvered-fin_14b_111'

  3/8-11.1: 'PF_louvered-fin_38_111'

  3/8(b)-11.1: 'PF_louvered-fin_38b_111'

  1/2-11.1: 'PF_louvered-fin_12_111'

  3/4-11.1: 'PF_louvered-fin_34_111'

  3/4(b)-11.1: 'PF_louvered-fin_34b_111'

 

m_dot: mass flow rate (kg/s or lbm/hr)

A_fr_tot: total frontal area as viewed by the flow approaching the tube bank (m^2 or ft^2); note that this includes both the pin fin channels and the space occupied by the other channels

b_2: the width between adjacent pin fin channels occupied by the other channels (m or ft)

L: the length in the flow direction (m or ft)

Fluid$: string indicating the fluid type

T_i: inlet temperature of the fluid (K, C, R, or F)

T_o: outlet temperature of the fluid (K, C, R, or F)

P: absolute pressure of the fluid (Pa, kPa, bar. MPa, atm, or psi)

 

Output

DELTAP:  pressure drop (Pa, kPa, bar, MPa, atm, or psi)

 

Example

$UnitSystem SI Mass J K Pa 

$VarInfo DELTAp Units = Pa

TypeHX$='PF_louvered-fin_38_606'

m_dot=0.7 [kg/s]

A_fr_tot=0.5 [m^2]

L=0.1 [m]

Fluid$='Air'

T=300 [K]

T_i=300 [K]

T_o=300 [K]

P=101325 [Pa]

b_2=0.01 [m]

 

CALL CHX_DP_PF_Louvered_Fin('PF_louvered-fin_38_606', m_dot, A_fr_tot, b_2, L, Fluid$, T_i, T_o, P: DELTAp)

 

 

{Solution:

DELTAp = 37.53 [Pa]}

 

 

Related procedures include:

Geometry Functions

Nondimensional Functions

Heat Transfer Coefficient