IHS ESDU Pressure losses in curved ducts: coils. 77029

Description
ESDU 77029 gives a method for calculating the pressure loss for single-phase gas or liquid incompressible Newtonian flow through a coil. By correlating data for friction factor taken from a wide range of sources in the literature, four Reynolds number regimes were identified and defined within each of which an equation for friction factor as a function of Reynolds number and coil diameter/tube diameter ratio was established. Correction factors are provided to take into account variation of fluid properties across the cross-section and variations in surface roughness. The data are strictly applicable to helical coils, but a method of using them for non-helical coils is suggested. Estimates of the accuracy of the prediction are included, and a practical worked example illustrates the use of the data.
  • Pressure losses in curved ducts: coils. - 77029 - IHS ESDU
    IHS ESDU
Description
ESDU 77029 gives a method for calculating the pressure loss for single-phase gas or liquid incompressible Newtonian flow through a coil. By correlating data for friction factor taken from a wide range of sources in the literature, four Reynolds number regimes were identified and defined within each of which an equation for friction factor as a function of Reynolds number and coil diameter/tube diameter ratio was established. Correction factors are provided to take into account variation of fluid properties across the cross-section and variations in surface roughness. The data are strictly applicable to helical coils, but a method of using them for non-helical coils is suggested. Estimates of the accuracy of the prediction are included, and a practical worked example illustrates the use of the data.

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Pressure losses in curved ducts: coils. - 77029 - IHS ESDU
IHS ESDU
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Pressure losses in curved ducts: coils.
77029
Pressure losses in curved ducts: coils. 77029
ESDU 77029 gives a method for calculating the pressure loss for single-phase gas or liquid incompressible Newtonian flow through a coil. By correlating data for friction factor taken from a wide range of sources in the literature, four Reynolds number regimes were identified and defined within each of which an equation for friction factor as a function of Reynolds number and coil diameter/tube diameter ratio was established. Correction factors are provided to take into account variation of fluid properties across the cross-section and variations in surface roughness. The data are strictly applicable to helical coils, but a method of using them for non-helical coils is suggested. Estimates of the accuracy of the prediction are included, and a practical worked example illustrates the use of the data.

ESDU 77029 gives a method for calculating the pressure loss for single-phase gas or liquid incompressible Newtonian flow through a coil. By correlating data for friction factor taken from a wide range of sources in the literature, four Reynolds number regimes were identified and defined within each of which an equation for friction factor as a function of Reynolds number and coil diameter/tube diameter ratio was established. Correction factors are provided to take into account variation of fluid properties across the cross-section and variations in surface roughness. The data are strictly applicable to helical coils, but a method of using them for non-helical coils is suggested. Estimates of the accuracy of the prediction are included, and a practical worked example illustrates the use of the data.

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Technical Specifications

  IHS ESDU
Product Category Standards and Technical Documents
Product Number 77029
Product Name Pressure losses in curved ducts: coils.
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