A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method

Torsten Berning; Henrik Sørensen; Mads Pagh Nielsen

A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method

Torsten Berning, Henrik Sørensen, Mads Pagh Nielsen

Publikation: Konferencebidrag uden forlag/tidsskrift › Paper uden forlag/tidsskrift › Forskning › peer review

Abstract

A numerical analysis of heat and mass transfer in an indirect evaporative cooling system for building applications is presented. The model is based on the computational fluid dynamics software CFX-4 and makes use of the built-in Spray Drier model to study the droplet movement, heat transfer, and evaporation rate from the water to the exhaust air. The effect of the average droplet size and mass flow rate as well as the angle of the heat exchanger on the cooling performance to the supply air is reported.

Originalsprog	Engelsk
Publikationsdato	aug. 2019
Antal sider	5
Status	Udgivet - aug. 2019
Begivenhed	The 11th International Conference on Applied Energy - Västerås, Sverige Varighed: 12 aug. 2019 → 15 aug. 2019

Konference

Konference	The 11th International Conference on Applied Energy
Land/Område	Sverige
By	Västerås
Periode	12/08/2019 → 15/08/2019

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http://www.energy-proceedings.org/a-computational-fluid-dynamics-analysis-of-an-indirect-evaporative-cooler-employing-the-particle-transport-method/

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Citationsformater

Berning, T., Sørensen, H., & Nielsen, M. P. (2019). A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method. Afhandling præsenteret på The 11th International Conference on Applied Energy, Västerås, Sverige. http://www.energy-proceedings.org/a-computational-fluid-dynamics-analysis-of-an-indirect-evaporative-cooler-employing-the-particle-transport-method/

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title = "A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method",

abstract = "A numerical analysis of heat and mass transfer in an indirect evaporative cooling system for building applications is presented. The model is based on the computational fluid dynamics software CFX-4 and makes use of the built-in Spray Drier model to study the droplet movement, heat transfer, and evaporation rate from the water to the exhaust air. The effect of the average droplet size and mass flow rate as well as the angle of the heat exchanger on the cooling performance to the supply air is reported.",

keywords = "Energy conservation in buildings",

author = "Torsten Berning and Henrik S{\o}rensen and Nielsen, {Mads Pagh}",

year = "2019",

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note = "The 11th International Conference on Applied Energy ; Conference date: 12-08-2019 Through 15-08-2019",

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Berning, T , Sørensen, H & Nielsen, MP 2019, 'A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method', Paper fremlagt ved The 11th International Conference on Applied Energy, Västerås, Sverige, 12/08/2019 - 15/08/2019. <http://www.energy-proceedings.org/a-computational-fluid-dynamics-analysis-of-an-indirect-evaporative-cooler-employing-the-particle-transport-method/>

A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method. / Berning, Torsten ; Sørensen, Henrik ; Nielsen, Mads Pagh.
2019. Afhandling præsenteret på The 11th International Conference on Applied Energy, Västerås, Sverige.

Publikation: Konferencebidrag uden forlag/tidsskrift › Paper uden forlag/tidsskrift › Forskning › peer review

TY - CONF

T1 - A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method

AU - Berning, Torsten

AU - Sørensen, Henrik

AU - Nielsen, Mads Pagh

PY - 2019/8

Y1 - 2019/8

N2 - A numerical analysis of heat and mass transfer in an indirect evaporative cooling system for building applications is presented. The model is based on the computational fluid dynamics software CFX-4 and makes use of the built-in Spray Drier model to study the droplet movement, heat transfer, and evaporation rate from the water to the exhaust air. The effect of the average droplet size and mass flow rate as well as the angle of the heat exchanger on the cooling performance to the supply air is reported.

AB - A numerical analysis of heat and mass transfer in an indirect evaporative cooling system for building applications is presented. The model is based on the computational fluid dynamics software CFX-4 and makes use of the built-in Spray Drier model to study the droplet movement, heat transfer, and evaporation rate from the water to the exhaust air. The effect of the average droplet size and mass flow rate as well as the angle of the heat exchanger on the cooling performance to the supply air is reported.

KW - Energy conservation in buildings

M3 - Paper without publisher/journal

T2 - The 11th International Conference on Applied Energy

Y2 - 12 August 2019 through 15 August 2019

ER -

A Computational Fluid Dynamics Analysis Of An Indirect Evaporative Cooler Employing The Particle Transport Method

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