A study on probabilistic thermal acceptability evaluation

Masanari Ukai; Goo Tsusaka; Tatsuo Nobe

A study on probabilistic thermal acceptability evaluation

Masanari Ukai, Goo Tsusaka, Tatsuo Nobe

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This study aims to establish a new thermal comfort index for evaluating air-conditioning systems, and introduces a new thermal comfort index for the provided and required temperatures. The authors performed comparison verification experiments on the temperature distribution of radiant air-conditioning and convective air-conditioning systems. The results showed the temperature provided by the convective air-conditioning system to have a wide distribution, unlike that of the radiant air-conditioning system. Based on these results, the authors propose a probabilistic thermal acceptability evaluation using the concepts of "provided temperature" and "required temperature". The authors consider this evaluation method to be applicable for non-steady thermal environments as well as uniform high quality indoor thermal environments using radiant air-conditioning systems, and personalized air-conditioning systems.

Original language	English
Title of host publication	Proceedings - 9th International Windsor Conference 2016
Subtitle of host publication	Making Comfort Relevant
Editors	Fergus Nicol, Susan Roaf, Luisa Brotas, Michael A Humphreys
Publisher	NCEUB 2016
Pages	985-993
Number of pages	9
ISBN (Electronic)	9780992895730
Publication status	Published - 2016
Externally published	Yes
Event	9th International Windsor Conference 2016: Making Comfort Relevant - Windsor, United Kingdom Duration: 2016 Apr 7 → 2016 Apr 10

Publication series

Name	Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant

Conference

Conference	9th International Windsor Conference 2016: Making Comfort Relevant
Country/Territory	United Kingdom
City	Windsor
Period	16/4/7 → 16/4/10

Keywords

Evaluation method
Provided temperature
Required temperature
Thermal acceptability
Thermal comfort

ASJC Scopus subject areas

Computer Science (miscellaneous)

Cite this

A study on probabilistic thermal acceptability evaluation. / Ukai, Masanari; Tsusaka, Goo; Nobe, Tatsuo.
Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant. ed. / Fergus Nicol; Susan Roaf; Luisa Brotas; Michael A Humphreys. NCEUB 2016, 2016. p. 985-993 (Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Ukai, M, Tsusaka, G & Nobe, T 2016, A study on probabilistic thermal acceptability evaluation. in F Nicol, S Roaf, L Brotas & MA Humphreys (eds), Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant. Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant, NCEUB 2016, pp. 985-993, 9th International Windsor Conference 2016: Making Comfort Relevant, Windsor, United Kingdom, 16/4/7.

Ukai, Masanari ; Tsusaka, Goo ; Nobe, Tatsuo. / A study on probabilistic thermal acceptability evaluation. Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant. editor / Fergus Nicol ; Susan Roaf ; Luisa Brotas ; Michael A Humphreys. NCEUB 2016, 2016. pp. 985-993 (Proceedings - 9th International Windsor Conference 2016: Making Comfort Relevant).

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AB - This study aims to establish a new thermal comfort index for evaluating air-conditioning systems, and introduces a new thermal comfort index for the provided and required temperatures. The authors performed comparison verification experiments on the temperature distribution of radiant air-conditioning and convective air-conditioning systems. The results showed the temperature provided by the convective air-conditioning system to have a wide distribution, unlike that of the radiant air-conditioning system. Based on these results, the authors propose a probabilistic thermal acceptability evaluation using the concepts of "provided temperature" and "required temperature". The authors consider this evaluation method to be applicable for non-steady thermal environments as well as uniform high quality indoor thermal environments using radiant air-conditioning systems, and personalized air-conditioning systems.

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A study on probabilistic thermal acceptability evaluation

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

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