The Evaluation of Air Blowing Method of Variable-Air-Conditioning-System using Coanda Effect by Computational Fluid Dynamics

H. Sakakibara; T. Akimoto; H. Igarashi; S. Nakamura; M. Kimura

doi:10.1088/1755-1315/294/1/012058

The Evaluation of Air Blowing Method of Variable-Air-Conditioning-System using Coanda Effect by Computational Fluid Dynamics

H. Sakakibara, T. Akimoto, H. Igarashi, S. Nakamura, M. Kimura

研究成果: Conference article › 査読

1 被引用数 (Scopus)

抄録

Government of Japan aims to achieve net zero energy buildings on average regarding newly constructed buildings by 2030. Therefore, we studied the ductless air conditioning system using Coanda effect which is one of the technologies to realize net zero energy buildings. By reducing duct space on the ceiling, it can reduce fan power and save resources. However, when the amount of blowing air volume is small, there is the possibility the conditioned air is not diffuse into the room. Also, when the blowing air volume is large, the draft airflow possibly occurs. Hence, the distribution of the airflow in the room was confirmed by computational fluid dynamics. 15 cases were analysed at the thermal load of 30%, 50% and 100%. The default case was set as the blowing temperature difference of 10 Kelvin and the blowing wind speed of 3.0 meters per second. Then, Air Diffusion Performance Index was calculated from Effective Draft Temperature. As a result, the thermal comfort was generally good when the thermal load was 100%. However, there were some cases that the thermal comfort was low by the draft and hot spaces. It was comfortable in most cases when the thermal load was 30% and 50%.

本文言語	English
論文番号	012058
ジャーナル	IOP Conference Series: Earth and Environmental Science
巻	294
号	1
DOI	https://doi.org/10.1088/1755-1315/294/1/012058
出版ステータス	Published - 2019 8月 9
イベント	Sustainable Built Environment Conference 2019 Tokyo: Built Environment in an Era of Climate Change: How Can Cities and Buildings Adapt?, SBE 2019 Tokyo - Tokyo, Japan 継続期間: 2019 8月 6 → 2019 8月 7

ASJC Scopus subject areas

環境科学（全般）
地球惑星科学（全般）

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10.1088/1755-1315/294/1/012058

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引用スタイル

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abstract = "Government of Japan aims to achieve net zero energy buildings on average regarding newly constructed buildings by 2030. Therefore, we studied the ductless air conditioning system using Coanda effect which is one of the technologies to realize net zero energy buildings. By reducing duct space on the ceiling, it can reduce fan power and save resources. However, when the amount of blowing air volume is small, there is the possibility the conditioned air is not diffuse into the room. Also, when the blowing air volume is large, the draft airflow possibly occurs. Hence, the distribution of the airflow in the room was confirmed by computational fluid dynamics. 15 cases were analysed at the thermal load of 30%, 50% and 100%. The default case was set as the blowing temperature difference of 10 Kelvin and the blowing wind speed of 3.0 meters per second. Then, Air Diffusion Performance Index was calculated from Effective Draft Temperature. As a result, the thermal comfort was generally good when the thermal load was 100%. However, there were some cases that the thermal comfort was low by the draft and hot spaces. It was comfortable in most cases when the thermal load was 30% and 50%.",

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AU - Nakamura, S.

AU - Kimura, M.

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N2 - Government of Japan aims to achieve net zero energy buildings on average regarding newly constructed buildings by 2030. Therefore, we studied the ductless air conditioning system using Coanda effect which is one of the technologies to realize net zero energy buildings. By reducing duct space on the ceiling, it can reduce fan power and save resources. However, when the amount of blowing air volume is small, there is the possibility the conditioned air is not diffuse into the room. Also, when the blowing air volume is large, the draft airflow possibly occurs. Hence, the distribution of the airflow in the room was confirmed by computational fluid dynamics. 15 cases were analysed at the thermal load of 30%, 50% and 100%. The default case was set as the blowing temperature difference of 10 Kelvin and the blowing wind speed of 3.0 meters per second. Then, Air Diffusion Performance Index was calculated from Effective Draft Temperature. As a result, the thermal comfort was generally good when the thermal load was 100%. However, there were some cases that the thermal comfort was low by the draft and hot spaces. It was comfortable in most cases when the thermal load was 30% and 50%.

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