CO2 concentrations and air change rates in Chinese city-type residences

Yuina Fujii; U. Yanagi; Hiroshi Yoshino; Zhenhai Li; Huibo Zhang; Jing Chao Xee; Yang Lv; Jing Liu; Shengwei Zhu; Niapen Li; Kenichi Hasegawa; Naoki Kagi; Tomonobu Goto

CO₂ concentrations and air change rates in Chinese city-type residences

Yuina Fujii, U. Yanagi, Hiroshi Yoshino, Zhenhai Li, Huibo Zhang, Jing Chao Xee, Yang Lv, Jing Liu, Shengwei Zhu, Niapen Li, Kenichi Hasegawa, Naoki Kagi, Tomonobu Goto

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

Abstract

Carbon dioxide concentration (CO₂) is an important index for estimating the air exchange rate (AER). To clarify the actual conditions of the AERs in city-type residences in China, CO₂ concentrations were measured at 5-minute intervals during a period of one to two weeks in six cities (Harbin, Dalian, Beijing, Shanghai, Wuhan, and Changsha) in summer and winter. The AERs were estimated by the reciprocal average concentration method and the CO₂ fitting technique, both of which rely on measured CO₂ concentrations. The ranges of CO₂ concentrations in winter and summer were 400-9794 ppm and 400-4519 ppm, respectively. The difference of the minimum concentrations was not remarkable between winter and summer among the six cities because indoor CO₂ concentrations are strongly influenced by outdoor CO₂ concentrations. On the other hand, for the maximum concentrations, winter showed CO₂ concentrations higher than those in summer. This finding indicates that the residents do not frequently open their windows in winter, and so indoor CO₂ concentrations trend to a high value. As estimated by the CO₂ fitting technique, it became clear that when windows were closed, AERs were 0.5 h^-1 or less. In the city-type residences in China, the CO₂ concentrations at the time of sleeping with closed windows reached a maximum of 10,000 ppm around daybreak, since airtightness was also higher. However, since windows are customarily opened in the daytime, the lowest concentrations in the daytime were comparable with the outdoor air concentrations in both summer and winter.

Original language	English
Title of host publication	Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation
Editors	Aimo Taipale, Zhengrong Li, Xianting Li, Xu Zhang
Publisher	International Conference on Industrial Ventilation
Pages	1000-1007
Number of pages	8
ISBN (Electronic)	9780000000002
Publication status	Published - 2015
Event	11th International Conference on Industrial Ventilation, Ventilation 2015 - Shanghai, China Duration: 2015 Oct 26 → 2015 Oct 28

Publication series

Name	Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation
Volume	2

Other

Other	11th International Conference on Industrial Ventilation, Ventilation 2015
Country/Territory	China
City	Shanghai
Period	15/10/26 → 15/10/28

Keywords

Air exchange rate
CO concentration
CO fitting technique
Reciprocal average concentration method
Residence

ASJC Scopus subject areas

Electrical and Electronic Engineering
Civil and Structural Engineering
Building and Construction
Control and Systems Engineering

Cite this

Fujii, Y., Yanagi, U., Yoshino, H., Li, Z., Zhang, H., Xee, J. C., Lv, Y., Liu, J., Zhu, S., Li, N., Hasegawa, K., Kagi, N., & Goto, T. (2015). CO₂ concentrations and air change rates in Chinese city-type residences. In A. Taipale, Z. Li, X. Li, & X. Zhang (Eds.), Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation (pp. 1000-1007). (Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation; Vol. 2). International Conference on Industrial Ventilation.

CO₂ concentrations and air change rates in Chinese city-type residences. / Fujii, Yuina; Yanagi, U.; Yoshino, Hiroshi et al.

Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation. ed. / Aimo Taipale; Zhengrong Li; Xianting Li; Xu Zhang. International Conference on Industrial Ventilation, 2015. p. 1000-1007 (Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation; Vol. 2).

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

Fujii, Y, Yanagi, U, Yoshino, H, Li, Z, Zhang, H, Xee, JC, Lv, Y, Liu, J, Zhu, S, Li, N, Hasegawa, K, Kagi, N & Goto, T 2015, CO₂ concentrations and air change rates in Chinese city-type residences. in A Taipale, Z Li, X Li & X Zhang (eds), Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation. Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation, vol. 2, International Conference on Industrial Ventilation, pp. 1000-1007, 11th International Conference on Industrial Ventilation, Ventilation 2015, Shanghai, China, 15/10/26.

Fujii Y, Yanagi U, Yoshino H, Li Z, Zhang H, Xee JC et al. CO₂ concentrations and air change rates in Chinese city-type residences. In Taipale A, Li Z, Li X, Zhang X, editors, Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation. International Conference on Industrial Ventilation. 2015. p. 1000-1007. (Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation).

Fujii, Yuina ; Yanagi, U. ; Yoshino, Hiroshi et al. / CO₂ concentrations and air change rates in Chinese city-type residences. Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation. editor / Aimo Taipale ; Zhengrong Li ; Xianting Li ; Xu Zhang. International Conference on Industrial Ventilation, 2015. pp. 1000-1007 (Ventilation 2015 - Proceedings of the 11th International Conference on Industrial Ventilation).

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abstract = "Carbon dioxide concentration (CO2) is an important index for estimating the air exchange rate (AER). To clarify the actual conditions of the AERs in city-type residences in China, CO2 concentrations were measured at 5-minute intervals during a period of one to two weeks in six cities (Harbin, Dalian, Beijing, Shanghai, Wuhan, and Changsha) in summer and winter. The AERs were estimated by the reciprocal average concentration method and the CO2 fitting technique, both of which rely on measured CO2 concentrations. The ranges of CO2 concentrations in winter and summer were 400-9794 ppm and 400-4519 ppm, respectively. The difference of the minimum concentrations was not remarkable between winter and summer among the six cities because indoor CO2 concentrations are strongly influenced by outdoor CO2 concentrations. On the other hand, for the maximum concentrations, winter showed CO2 concentrations higher than those in summer. This finding indicates that the residents do not frequently open their windows in winter, and so indoor CO2 concentrations trend to a high value. As estimated by the CO2 fitting technique, it became clear that when windows were closed, AERs were 0.5 h-1 or less. In the city-type residences in China, the CO2 concentrations at the time of sleeping with closed windows reached a maximum of 10,000 ppm around daybreak, since airtightness was also higher. However, since windows are customarily opened in the daytime, the lowest concentrations in the daytime were comparable with the outdoor air concentrations in both summer and winter.",

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AB - Carbon dioxide concentration (CO2) is an important index for estimating the air exchange rate (AER). To clarify the actual conditions of the AERs in city-type residences in China, CO2 concentrations were measured at 5-minute intervals during a period of one to two weeks in six cities (Harbin, Dalian, Beijing, Shanghai, Wuhan, and Changsha) in summer and winter. The AERs were estimated by the reciprocal average concentration method and the CO2 fitting technique, both of which rely on measured CO2 concentrations. The ranges of CO2 concentrations in winter and summer were 400-9794 ppm and 400-4519 ppm, respectively. The difference of the minimum concentrations was not remarkable between winter and summer among the six cities because indoor CO2 concentrations are strongly influenced by outdoor CO2 concentrations. On the other hand, for the maximum concentrations, winter showed CO2 concentrations higher than those in summer. This finding indicates that the residents do not frequently open their windows in winter, and so indoor CO2 concentrations trend to a high value. As estimated by the CO2 fitting technique, it became clear that when windows were closed, AERs were 0.5 h-1 or less. In the city-type residences in China, the CO2 concentrations at the time of sleeping with closed windows reached a maximum of 10,000 ppm around daybreak, since airtightness was also higher. However, since windows are customarily opened in the daytime, the lowest concentrations in the daytime were comparable with the outdoor air concentrations in both summer and winter.

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