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A model of heat and air transfer in a ventilated, rectangular space

Olenets, Marianna / Piotrowski, Jerzy Z

This work presents and verifies the model and air transfer in a horizontal, naturally ventilated air cavity that could be under a flat roof or under a building as a crawl space. In this article, this space is represented as a rectangular air channel with a cooled top and heated bottom and walls each either heated or cooled. Temperature of all wall surfaces varies along the attic space length. The model allows estimating temperatures of air and wall surfaces along the channel for a low velocity of airflow in the channel. The results of calculations were compared with a field experiment and agreed within estimated errors of the model, that is, <9%.

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A model of heat and air transfer in a ventilated, rectangular space

Olenets, Marianna / Piotrowski, Jerzy Z

This work presents and verifies the model and air transfer in a horizontal, naturally ventilated air cavity that could be under a flat roof or under a building as a crawl space. In this article, this space is represented as a rectangular air channel with a cooled top and heated bottom and walls each either heated or cooled. Temperature of all wall surfaces varies along the attic space length. The model allows estimating temperatures of air and wall surfaces along the channel for a low velocity of airflow in the channel. The results of calculations were compared with a field experiment and agreed within estimated errors of the model, that is, <9%.

A model of heat and air transfer in a ventilated, rectangular space

Olenets, Marianna / Piotrowski, Jerzy Z

This work presents and verifies the model and air transfer in a horizontal, naturally ventilated air cavity that could be under a flat roof or under a building as a crawl space. In this article, this space is represented as a rectangular air channel with a cooled top and heated bottom and walls each either heated or cooled. Temperature of all wall surfaces varies along the attic space length. The model allows estimating temperatures of air and wall surfaces along the channel for a low velocity of airflow in the channel. The results of calculations were compared with a field experiment and agreed within estimated errors of the model, that is, <9%.

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Title:

A model of heat and air transfer in a ventilated, rectangular space

Contributors:

Olenets, Marianna (author) / Piotrowski, Jerzy Z (author)

Published in:

Journal of Building Physics ; 40 ; 334-345

Publication date:

2017-01-01

Size:

12 pages

ISSN:

1744-2591 , 1744-2583

DOI:

https://doi.org/10.1177/1744259116641240

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

experimental validation , heat transfer , Model , low-ceilinged attic space , naturally ventilated cavity

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