Increasing the Energy Efficiency of Heat Exchanger Devices

Rufat Kalbaliyev; Lala Akhmedova-Azizova; Ulviyye Nasibova

doi:10.4028/p-d2ySXh

Paper Titles

Determination of the Ink Layer Thickness, Taking into Account the Surface Roughness of the Printing Forum
p.117

Research on Ratio Regulation Gear Differential Closed by a Continuously Variable Transmission (CVT)
p.125

Anti-Vibration Foundation for the Machines Used in the Oil and Gas Industry
p.131

Verification of the Adequacy of the Created Work Cycle Calculation Model of Marine Diesel Engine
p.137

Increasing the Energy Efficiency of Heat Exchanger Devices
p.147

Analysis of the Speed of Sound in Solutions of Ionic Liquids with Methanol
p.153

The Development and Study of an Electromechanical Converter for an Electro-Hydraulic Power Amplifier of a Servo-Hydraulic Drive
p.163

Requirements Definition, Modeling, and Simulation of Control Units of an Electrohydraulic Power Amplifier
p.179

Research of the Electromagnetical Part of Three-Phase Electromagnetic Vibrator of Low Frequency Vibrations
p.187

HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 148Increasing the Energy Efficiency of Heat Exchanger...

Increasing the Energy Efficiency of Heat Exchanger Devices

Abstract:

Studying the temperature regimes affecting the durability of the metal wall of heat exchanger pipes helps identify ways to enhance efficiency in heat exchange processes. One of the key factors determining the temperature regime of the pipe wall is the heat transfer. One of the main factors contributing to an increase in heat transfer is the intensification of heat exchange.

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Periodical:

Advances in Science and Technology (Volume 148)

Pages:

147-152

DOI:

https://doi.org/10.4028/p-d2ySXh

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Online since:

April 2024

Authors:

Rufat Kalbaliyev, Lala Akhmedova-Azizova, Ulviyye Nasibova*

Keywords:

Heat Exchange, Heat Transfer, Heat Transfer Intensification, Turbulizers

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* - Corresponding Author

References

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