A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources

Chia Hsin Chen; Masaki Noaki; Yoshifumi Ohmiya; Yuya Miyazawa; Kei Aoki; Kouki Yuki; Tetsuhito Akieda

doi:10.1007/978-981-32-9139-3_54

A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources

Chia Hsin Chen, Masaki Noaki, Yoshifumi Ohmiya, Yuya Miyazawa, Kei Aoki, Kouki Yuki, Tetsuhito Akieda

Department of Architecture

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

Abstract

Water application has been used widely and considered as one of the most reliable fire extinguisher systems. Although Actual Delivered Density (ADD) is a vital property to evaluate its performance that fire can be suppressed when the value of ADD is higher than that of Required Delivered Density (RDD). It is still unclear how to accurately estimate the amount of water penetrated through flames, which is essential to calculate ADD. The purpose of this study is to assess the influential factors of ADD and to establish proper evaluation criteria of water application. To this end, a series of experiments were conducted to measure the effects of a fire source on the amount of spraying water delivered by water application. The variable parameters include the type of head, the height between head and fire source (later, spraying height), the dimensions of the fire source, and the heat release rate. The experimental results show that the spraying height and the nozzle characteristics can dramatically influence the water penetration ratio. Furthermore, when JJXP060 was within 0.5 m spraying height, the ADDs were significantly affected by the scale of the fire source. Large-scale fire source scenarios were also simulated using Fire Dynamics Simulator (FDS). It shows that the ratio of the ADD with a fire source to the ADD without a fire source, directly below a nozzle at 3 m height, is within 10%, and its value does not decrease as the scale of fire increases. Lastly, a simple predictive model was calibrated experimentally, which can serve as a tool to estimate the amount of water penetrated through flames.

Original language	English
Title of host publication	The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology
Editors	Guan-Yuan Wu, Kuang-Chung Tsai, W.K. Chow
Publisher	Springer
Pages	741-754
Number of pages	14
ISBN (Print)	9789813291386
DOIs	https://doi.org/10.1007/978-981-32-9139-3_54
Publication status	Published - 2020
Event	11th Asia-Oceania Symposium on Fire Science and Technology, AOSFST 2018 - Taipei, Taiwan, Province of China Duration: 22 Oct 2018 → 24 Oct 2018

Publication series

Name	The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology

Conference

Conference	11th Asia-Oceania Symposium on Fire Science and Technology, AOSFST 2018
Country/Territory	Taiwan, Province of China
City	Taipei
Period	22/10/18 → 24/10/18

Keywords

Actual Delivered Density (ADD)
Experiments
Fire Dynamics Simulator (FDS)
Multiple regression analysis
Water application

Access to Document

10.1007/978-981-32-9139-3_54

Cite this

Chen, C. H., Noaki, M., Ohmiya, Y., Miyazawa, Y., Aoki, K., Yuki, K., & Akieda, T. (2020). A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources. In G.-Y. Wu, K.-C. Tsai, & W. K. Chow (Eds.), The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology (pp. 741-754). (The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology). Springer. https://doi.org/10.1007/978-981-32-9139-3_54

Chen, Chia Hsin ; Noaki, Masaki ; Ohmiya, Yoshifumi et al. / A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources. The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology. editor / Guan-Yuan Wu ; Kuang-Chung Tsai ; W.K. Chow. Springer, 2020. pp. 741-754 (The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology).

@inproceedings{724ef1b219e340cea2be7ce89d61f71a,

title = "A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources",

abstract = "Water application has been used widely and considered as one of the most reliable fire extinguisher systems. Although Actual Delivered Density (ADD) is a vital property to evaluate its performance that fire can be suppressed when the value of ADD is higher than that of Required Delivered Density (RDD). It is still unclear how to accurately estimate the amount of water penetrated through flames, which is essential to calculate ADD. The purpose of this study is to assess the influential factors of ADD and to establish proper evaluation criteria of water application. To this end, a series of experiments were conducted to measure the effects of a fire source on the amount of spraying water delivered by water application. The variable parameters include the type of head, the height between head and fire source (later, spraying height), the dimensions of the fire source, and the heat release rate. The experimental results show that the spraying height and the nozzle characteristics can dramatically influence the water penetration ratio. Furthermore, when JJXP060 was within 0.5 m spraying height, the ADDs were significantly affected by the scale of the fire source. Large-scale fire source scenarios were also simulated using Fire Dynamics Simulator (FDS). It shows that the ratio of the ADD with a fire source to the ADD without a fire source, directly below a nozzle at 3 m height, is within 10%, and its value does not decrease as the scale of fire increases. Lastly, a simple predictive model was calibrated experimentally, which can serve as a tool to estimate the amount of water penetrated through flames.",

keywords = "Actual Delivered Density (ADD), Experiments, Fire Dynamics Simulator (FDS), Multiple regression analysis, Water application",

author = "Chen, {Chia Hsin} and Masaki Noaki and Yoshifumi Ohmiya and Yuya Miyazawa and Kei Aoki and Kouki Yuki and Tetsuhito Akieda",

note = "Publisher Copyright: {\textcopyright} Springer Nature Singapore Pte Ltd. 2020.; 11th Asia-Oceania Symposium on Fire Science and Technology, AOSFST 2018 ; Conference date: 22-10-2018 Through 24-10-2018",

year = "2020",

doi = "10.1007/978-981-32-9139-3_54",

language = "English",

isbn = "9789813291386",

series = "The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology",

publisher = "Springer",

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booktitle = "The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology",

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Chen, CH, Noaki, M, Ohmiya, Y, Miyazawa, Y, Aoki, K, Yuki, K & Akieda, T 2020, A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources. in G-Y Wu, K-C Tsai & WK Chow (eds), The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology. The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology, Springer, pp. 741-754, 11th Asia-Oceania Symposium on Fire Science and Technology, AOSFST 2018, Taipei, Taiwan, Province of China, 22/10/18. https://doi.org/10.1007/978-981-32-9139-3_54

A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources. / Chen, Chia Hsin; Noaki, Masaki; Ohmiya, Yoshifumi et al.
The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology. ed. / Guan-Yuan Wu; Kuang-Chung Tsai; W.K. Chow. Springer, 2020. p. 741-754 (The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology).

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

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AU - Chen, Chia Hsin

AU - Noaki, Masaki

AU - Ohmiya, Yoshifumi

AU - Miyazawa, Yuya

AU - Aoki, Kei

AU - Yuki, Kouki

AU - Akieda, Tetsuhito

N1 - Publisher Copyright: © Springer Nature Singapore Pte Ltd. 2020.

PY - 2020

Y1 - 2020

N2 - Water application has been used widely and considered as one of the most reliable fire extinguisher systems. Although Actual Delivered Density (ADD) is a vital property to evaluate its performance that fire can be suppressed when the value of ADD is higher than that of Required Delivered Density (RDD). It is still unclear how to accurately estimate the amount of water penetrated through flames, which is essential to calculate ADD. The purpose of this study is to assess the influential factors of ADD and to establish proper evaluation criteria of water application. To this end, a series of experiments were conducted to measure the effects of a fire source on the amount of spraying water delivered by water application. The variable parameters include the type of head, the height between head and fire source (later, spraying height), the dimensions of the fire source, and the heat release rate. The experimental results show that the spraying height and the nozzle characteristics can dramatically influence the water penetration ratio. Furthermore, when JJXP060 was within 0.5 m spraying height, the ADDs were significantly affected by the scale of the fire source. Large-scale fire source scenarios were also simulated using Fire Dynamics Simulator (FDS). It shows that the ratio of the ADD with a fire source to the ADD without a fire source, directly below a nozzle at 3 m height, is within 10%, and its value does not decrease as the scale of fire increases. Lastly, a simple predictive model was calibrated experimentally, which can serve as a tool to estimate the amount of water penetrated through flames.

AB - Water application has been used widely and considered as one of the most reliable fire extinguisher systems. Although Actual Delivered Density (ADD) is a vital property to evaluate its performance that fire can be suppressed when the value of ADD is higher than that of Required Delivered Density (RDD). It is still unclear how to accurately estimate the amount of water penetrated through flames, which is essential to calculate ADD. The purpose of this study is to assess the influential factors of ADD and to establish proper evaluation criteria of water application. To this end, a series of experiments were conducted to measure the effects of a fire source on the amount of spraying water delivered by water application. The variable parameters include the type of head, the height between head and fire source (later, spraying height), the dimensions of the fire source, and the heat release rate. The experimental results show that the spraying height and the nozzle characteristics can dramatically influence the water penetration ratio. Furthermore, when JJXP060 was within 0.5 m spraying height, the ADDs were significantly affected by the scale of the fire source. Large-scale fire source scenarios were also simulated using Fire Dynamics Simulator (FDS). It shows that the ratio of the ADD with a fire source to the ADD without a fire source, directly below a nozzle at 3 m height, is within 10%, and its value does not decrease as the scale of fire increases. Lastly, a simple predictive model was calibrated experimentally, which can serve as a tool to estimate the amount of water penetrated through flames.

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KW - Experiments

KW - Fire Dynamics Simulator (FDS)

KW - Multiple regression analysis

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BT - The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology

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A2 - Tsai, Kuang-Chung

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Chen CH, Noaki M, Ohmiya Y, Miyazawa Y, Aoki K, Yuki K et al. A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources. In Wu GY, Tsai KC, Chow WK, editors, The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology. Springer. 2020. p. 741-754. (The Proceedings of 11th Asia-Oceania Symposium on Fire Science and Technology). doi: 10.1007/978-981-32-9139-3_54

A Study on Actual Delivered Density of Water Application Under the Effects of Fire Sources

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