New correlation for natural convection of finned tube A-type air cooler

The results of optimisation calculations presented in the article are related to longitudinally finned tubes of a heat pump evaporator operating under natural wind-induced flow of outdoor air conditions. The finned surface is characterised by an unusual, wavy fin shape. The article presents the methodology applied to seeking optimal geometric parameters of the finned tube in which thermal calculations were performed by modelling a mixed convection process on the finned surface using the finite volume method. In the case of maximising the heat flow with the minimum mass of the fins, the optimal solution was dominated by the minimum mass of the fins and thus geometric parameters correspond to the number of fins n = 6, fin height h = 0.065 and fin thickness s = 0.0015 m. Optimisation calculations made for maximum efficiency of the exchanger at constant mass indicated that the tube with ten fins (n = 10) with a height of h = 0.11 m and a thickness of s = 0.0018 m allowed maximum heat flow at the assumed mass of the fins in the exchanger tube model. The article proposes a simplified method of determining the optimal geometric parameters of the profile for any mass and maximum thermal efficiency.

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Heat Exchanger Options for Dry Air Cooling for the sCO2 Brayton Cycle

Volume 9: Oil and Gas Applications; Supercritical CO2 Power Cycles; Wind Energy ◽

10.1115/gt2017-63187 ◽

2017 ◽

Cited By ~ 3

Author(s):

Anton Moisseytsev ◽

Qiuping Lv ◽

James J. Sienicki

Keyword(s):

Heat Exchanger ◽

Heat Exchangers ◽

Cost Effective ◽

Finned Tube ◽

Air Cooling ◽

Brayton Cycle ◽

Dry Air ◽

Air Atmosphere ◽

Air Cooler ◽

Forced Air

The capability to utilize dry air cooling by which heat is directly rejected to the air atmosphere heat sink is one of the benefits of the supercritical carbon dioxide (sCO2) energy conversion cycle. For the selection and analysis of the heat exchanger options for dry air cooling applications for the sCO2 cycle, two leading forced air flow design approaches have been identified and analyzed for this application; an air cooler consisting of modular finned tube air coolers; and an air cooler consisting of modular compact diffusion-bonded heat exchangers. The commercially available modular finned tube air cooler is found to be more cost effective and is selected as the reference for dry air cooling.

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Effect of material and geometric parameters on natural convection heat transfer over an eccentric annular-finned tube

International Journal of Ambient Energy ◽

10.1080/01430750.2019.1573757 ◽

2019 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

Issam Fourar ◽

Abdelmoumene Hakim Benmachiche ◽

Said Abboudi

Keyword(s):

Heat Transfer ◽

Natural Convection ◽

Convection Heat Transfer ◽

Finned Tube ◽

Geometric Parameters ◽

Natural Convection Heat Transfer ◽

Convection Heat

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Numerical simulation of natural convection heat transfer for annular elliptical finned tube heat exchanger with experimental data

International Journal of Heat and Mass Transfer ◽

10.1016/j.ijheatmasstransfer.2018.08.057 ◽

2018 ◽

Vol 127 ◽

pp. 541-554 ◽

Cited By ~ 4

Author(s):

Han-Taw Chen ◽

Yi-Lun Hsieh ◽

Ping-Chou Chen ◽

Yi-Fan Lin ◽

Kuo-Chi Liu

Keyword(s):

Heat Transfer ◽

Experimental Data ◽

Numerical Simulation ◽

Natural Convection ◽

Convection Heat Transfer ◽

Finned Tube ◽

Natural Convection Heat Transfer ◽

Convection Heat ◽

Tube Heat Exchanger ◽

Finned Tube Heat Exchanger

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Transient Numerical Analysis of Different Finned Tube Designs for Use in Latent Heat Thermal Energy Storage Devices

Volume 2: Photovoltaics; Renewable-Non-Renewable Hybrid Power System; Smart Grid, Micro-Grid Concepts; Energy Storage; Solar Chemistry; Solar Heating and Cooling; Sustainable Cities and Communities, Transportation; Symposium on Integrated/Sustainable Building Equipment and Systems; Thermofluid Analysis of Energy Systems Including Exergy and Thermoeconomics; Wind Energy Systems and Technologies ◽

10.1115/es2015-49145 ◽

2015 ◽

Cited By ~ 1

Author(s):

Anton Beck ◽

Martin Koller ◽

Heimo Walter ◽

Michael Hameter

Keyword(s):

Heat Transfer ◽

Natural Convection ◽

Numerical Analysis ◽

Numerical Investigation ◽

Sodium Nitrate ◽

Solidification Process ◽

Melting Process ◽

Finned Tube ◽

Heat Transfer Mechanism ◽

Melting And Solidification

In this paper the results of a numerical investigation of the melting and solidification process of sodium nitrate, which is used as phase change material, will be presented. For the heat transfer to the sodium nitrate different finned tube designs, namely helical-, transversal- and longitudinal finned tubes, are used. The numerical results of the melting and solidification process for the different design cases will be compared. The numerical analysis of the melting process has shown that apart from the first period of the charging process natural convection is the dominant heat transfer mechanism. The numerical analysis of the melting process has also shown that for a fast melting process heat exchanger tubes should be designed in such a way that an unrestricted natural convection is guaranteed. The numerical investigation for the solidification process has shown that the dominant heat transfer mechanism is heat conduction. The investigation has also shown that the solidification front grows more uniformly from the tube surface to the outer shell compared to the melting front. Therefore no significant differences between the different tube designs are detected concerning the solidification process.

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