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Basic Concepts > General > Fluid Basics EspaƱol
 
Concepts
Flow Coefficient CV and Kv
Flow Coefficient comparative
Flow coefficient for ball valve
Flow coefficient for butterfly valve
Discharge Coefficient
Reynolds Number
Flow Equations - Online Calculation
Flow Coefficient (Cv and Kv)
Pressure drop Coefficient zeta (ζ)
Discharge Coefficient (C)
Flow Rate (Q)
Flow velocity (v)
Head drop (Δh)
Pressure drop (ΔP)
Cavitation Number
 
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Herpor valve engineering
Flow Equations
Pressure Drop (ΔP) Calculation

A: Area
C: Discharge coefficient
d: density ( water density = 1000kg/m³ )
D: Diameter
g: Gravity 9.8 m/s²
K: Flow coefficient (Kv)(Cv)
Q: Flow rate
SG: Specific gravity (1 for water)
v: Flow velocity
Δh: Head Drop (high of fluid)
ΔP: Pressure Drop
ζ: Zeta pressure loss coefficient

Ecuaciones Diferencia de Presion
ΔP= [Q/ (C·A) ]² · (d/2)

Ecuaciones Diferencia de Presion
ΔP= [Q/ (C· (D)²·π/4)]² · (d/2)

Ecuaciones Diferencia de Presion
ΔP= [Q/K ]² ·SG
K = Cv, when K is referenced in [gpm] [psi] units.
K = Kv, when K is referenced in [m³/h] [bar] units.

Ecuaciones Diferencia de Presion
ΔP= ζ· d · [v / 2

Ecuaciones Diferencia de Presion
ΔP= ζ· d · 8 · [Q / ( π · [D]² )²
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