Evaluation of task air conditioning system with convection, conduction, and radiation

Misa Imazu; Shinichi Tanabe; Jiannan Liu; Kazuki Furumoto; Riho Matsuzaki; Miki Iijima; Kenji Fujino; Daisuke Hatori; Nobuhiro Hirasuga; Shun Kato; Shiori Sasahara; Hiroki Iwata

Evaluation of task air conditioning system with convection, conduction, and radiation

Misa Imazu, Shinichi Tanabe, Jiannan Liu, Kazuki Furumoto, Riho Matsuzaki, Miki Iijima, Kenji Fujino, Daisuke Hatori, Nobuhiro Hirasuga, Shun Kato, Shiori Sasahara, Hiroki Iwata

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

Abstract

In this study, a subjective experiment was conducted to evaluate thermal sensation and comfort, and usage of newly developed task conditioning system in different ambient temperatures. Gender differences were shown in task usage, and individual differences were significant at higher ambient temperatures. Data of how one uses task conditioning are crucial under practical use and when evaluating overall energy conservation, considering both task and ambient conditioning systems.

Original language	English
Title of host publication	Healthy Buildings Europe 2017
Publisher	International Society of Indoor Air Quality and Climate
ISBN (Print)	9788379472604
Publication status	Published - 2017 Jan 1
Event	Healthy Buildings Europe 2017, HB 2017 - Lublin, Poland Duration: 2017 Jul 2 → 2017 Jul 5

Other

Other	Healthy Buildings Europe 2017, HB 2017
Country/Territory	Poland
City	Lublin
Period	17/7/2 → 17/7/5

Keywords

Gender differences
Individual controlling
Non-steady rate
Steady rate
Task usage

ASJC Scopus subject areas

Civil and Structural Engineering

Cite this

Evaluation of task air conditioning system with convection, conduction, and radiation. / Imazu, Misa; Tanabe, Shinichi; Liu, Jiannan; Furumoto, Kazuki; Matsuzaki, Riho; Iijima, Miki; Fujino, Kenji; Hatori, Daisuke; Hirasuga, Nobuhiro; Kato, Shun; Sasahara, Shiori; Iwata, Hiroki.

Healthy Buildings Europe 2017. International Society of Indoor Air Quality and Climate, 2017.

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

Imazu, M, Tanabe, S, Liu, J, Furumoto, K, Matsuzaki, R, Iijima, M, Fujino, K, Hatori, D, Hirasuga, N, Kato, S, Sasahara, S & Iwata, H 2017, Evaluation of task air conditioning system with convection, conduction, and radiation. in Healthy Buildings Europe 2017. International Society of Indoor Air Quality and Climate, Healthy Buildings Europe 2017, HB 2017, Lublin, Poland, 17/7/2.

Imazu, Misa ; Tanabe, Shinichi ; Liu, Jiannan ; Furumoto, Kazuki ; Matsuzaki, Riho ; Iijima, Miki ; Fujino, Kenji ; Hatori, Daisuke ; Hirasuga, Nobuhiro ; Kato, Shun ; Sasahara, Shiori ; Iwata, Hiroki. / Evaluation of task air conditioning system with convection, conduction, and radiation. Healthy Buildings Europe 2017. International Society of Indoor Air Quality and Climate, 2017.

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AU - Imazu, Misa

AU - Tanabe, Shinichi

AU - Liu, Jiannan

AU - Furumoto, Kazuki

AU - Matsuzaki, Riho

AU - Iijima, Miki

AU - Fujino, Kenji

AU - Hatori, Daisuke

AU - Hirasuga, Nobuhiro

AU - Kato, Shun

AU - Sasahara, Shiori

AU - Iwata, Hiroki

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AB - In this study, a subjective experiment was conducted to evaluate thermal sensation and comfort, and usage of newly developed task conditioning system in different ambient temperatures. Gender differences were shown in task usage, and individual differences were significant at higher ambient temperatures. Data of how one uses task conditioning are crucial under practical use and when evaluating overall energy conservation, considering both task and ambient conditioning systems.

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KW - Individual controlling

KW - Non-steady rate

KW - Steady rate

KW - Task usage

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AN - SCOPUS:85053941534

SN - 9788379472604

BT - Healthy Buildings Europe 2017

PB - International Society of Indoor Air Quality and Climate

T2 - Healthy Buildings Europe 2017, HB 2017

Y2 - 2 July 2017 through 5 July 2017

ER -

Evaluation of task air conditioning system with convection, conduction, and radiation

Abstract

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Keywords

ASJC Scopus subject areas

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