IHS ESDU Low-fin staggered tube banks: heat transfer and pressure loss for turbulent single-phase crossflow. 84016

Description
ESDU 84016 gives correlations for calculating the external heat transfer and pressure loss for flow over low-fin tube banks. "Low-fins" are fins of limited height formed on the tube outside wall, typically by cold rolling. The correlations were derived from a regression analysis of experimental data from various sources covering 14 configurations. They are applicable for Reynolds numbers between 1.0E3 and 8.0E5, fin densities of 11 to 32 fins per inch (425 to 1250 fins per metre), with heights of 0.03 to 0.1 inch (0.75 to 3 mm) on tubes of outside diameter 0.5 to 1.25 inch (13 to 40 mm). For 97 results the method predicts heat transfer coefficient with a standard deviation of 6.6 per cent and over 81 results predicts pressure drop with a standard deviation of 7.7 per cent. A practical worked example illustrates the use of data.
Description
ESDU 84016 gives correlations for calculating the external heat transfer and pressure loss for flow over low-fin tube banks. "Low-fins" are fins of limited height formed on the tube outside wall, typically by cold rolling. The correlations were derived from a regression analysis of experimental data from various sources covering 14 configurations. They are applicable for Reynolds numbers between 1.0E3 and 8.0E5, fin densities of 11 to 32 fins per inch (425 to 1250 fins per metre), with heights of 0.03 to 0.1 inch (0.75 to 3 mm) on tubes of outside diameter 0.5 to 1.25 inch (13 to 40 mm). For 97 results the method predicts heat transfer coefficient with a standard deviation of 6.6 per cent and over 81 results predicts pressure drop with a standard deviation of 7.7 per cent. A practical worked example illustrates the use of data.

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Low-fin staggered tube banks: heat transfer and pressure loss for turbulent single-phase crossflow. - 84016 - IHS ESDU
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Low-fin staggered tube banks: heat transfer and pressure loss for turbulent single-phase crossflow.
84016
Low-fin staggered tube banks: heat transfer and pressure loss for turbulent single-phase crossflow. 84016
ESDU 84016 gives correlations for calculating the external heat transfer and pressure loss for flow over low-fin tube banks. "Low-fins" are fins of limited height formed on the tube outside wall, typically by cold rolling. The correlations were derived from a regression analysis of experimental data from various sources covering 14 configurations. They are applicable for Reynolds numbers between 1.0E3 and 8.0E5, fin densities of 11 to 32 fins per inch (425 to 1250 fins per metre), with heights of 0.03 to 0.1 inch (0.75 to 3 mm) on tubes of outside diameter 0.5 to 1.25 inch (13 to 40 mm). For 97 results the method predicts heat transfer coefficient with a standard deviation of 6.6 per cent and over 81 results predicts pressure drop with a standard deviation of 7.7 per cent. A practical worked example illustrates the use of data.

ESDU 84016 gives correlations for calculating the external heat transfer and pressure loss for flow over low-fin tube banks. "Low-fins" are fins of limited height formed on the tube outside wall, typically by cold rolling. The correlations were derived from a regression analysis of experimental data from various sources covering 14 configurations. They are applicable for Reynolds numbers between 1.0E3 and 8.0E5, fin densities of 11 to 32 fins per inch (425 to 1250 fins per metre), with heights of 0.03 to 0.1 inch (0.75 to 3 mm) on tubes of outside diameter 0.5 to 1.25 inch (13 to 40 mm). For 97 results the method predicts heat transfer coefficient with a standard deviation of 6.6 per cent and over 81 results predicts pressure drop with a standard deviation of 7.7 per cent. A practical worked example illustrates the use of data.

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Technical Specifications

  IHS ESDU
Product Category Standards and Technical Documents
Product Number 84016
Product Name Low-fin staggered tube banks: heat transfer and pressure loss for turbulent single-phase crossflow.
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