| Volume 26, Issue 2 Pages 153–343 |
| Page |
Author |
English Title |
日本語題名 |
| Editorial |
| 155–156 |
William W Nazaroff |
Lost in the archive |
アーカイブを回顧する |
| Original Articles |
| 155–156 |
B. Kolarik, Z. Jovanovic Andersen, T. Ibfelt, E. Hoj Engelund, E. Møller and E. Vaclavik Bräuner |
Ventilation in day care centers and sick leave among nursery children |
保育園の換気と園児の病気休暇 |
| 168–178 |
S. J. Cho, J. M. Cox-Ganser and J.-H. Park |
Observational scores of dampness and mold associated with measurements of microbial agents and moisture in three public schools |
3つの公立学校におけるダンプネス及び微生物因子と湿度の測定と関連するカビの観察値 |
| 193–206 |
S. Bhangar, R. I. Adams, W. Pasut, J. A. Huffman, E. A. Arens, J. W. Taylor, T. D. Bruns and W. W. Nazaroff |
Chamber bioaerosol study: human emissions of size-resolved fluorescent biological aerosol particles |
チャンバーバイオエアロゾル研究:粒径別蛍光バイオエアロゾル粒子の人の放散 |
| 207–218 |
J. C. Lorentzen, S. A. Juran, M. Nilsson, S. Nordin and G. Johanson |
Chloroanisoles may explain mold odor and represent a major indoor environment problem in Sweden |
クロロアニソールはカビ臭の原因であり、スェーデンにおける主要な室内環境問題の可能性がある |
| 219–230 |
M. Cheng, I. E. Galbally, S. B. Molloy, P. W. Selleck, M. D. Keywood, S. J. Lawson, J. C. Powell, R. W. Gillett and E. Dunne |
Factors controlling volatile organic compounds in dwellings in Melbourne, Australia |
オーストラリアメルボルンの住宅内における揮発有機化合物を制御する因子 |
| 231–245 |
N. A. Mullen, J. Li, M. L. Russell, M. Spears, B. D. Less and B. C. Singer |
Results of the California Healthy Homes Indoor Air Quality Study of 2011–2013: impact of natural gas appliances on air pollutant concentrations |
2011-2013年のカリフォルニア健康住宅室内空気質研究の結果:天然ガス器具の室内汚染濃度への影響 |
| 246–258 |
Y. Chen, G. Shen, Y. Huang, Y. Zhang, Y. Han, R. Wang, H. Shen, S. Su, N. Lin, D. Zhu, L. Pei, X. Zheng, J. Wu, X. Wang, W. Liu, M. Wong and S. Tao |
Household air pollution and personal exposure risk of polycyclic aromatic hydrocarbons among rural residents in Shanxi, China |
中国シャンシーの地方住宅における多環芳香族炭化水素の家庭内空気汚染と個人曝露リスク |
| 259–273 |
Z. T. Ai and C. M. Mak |
Large eddy simulation of wind-induced interunit dispersion around multistory buildings |
高層ビル周辺の風に起因するユニット間分散の大渦シミュレーション |
| 274–285 |
Y. Cheng and Z. Lin |
Experimental investigation into the interaction between the human body and room airflow and its effect on thermal comfort under stratum ventilation |
層換気条件での人体と室内気流の相互関係とその熱的快適性への影響についての実験的調査 |
| 286–297 |
H. Maula, V. Hongisto, L. Östman, A. Haapakangas, H. Koskela and J. Hyönä |
The effect of slightly warm temperature on work performance and comfort in open-plan offices – a laboratory study |
オープン・プラン式のオフィスにおいて僅かに温かい温度が仕事の能率と快適性に与える影響 -実験室研究 |
| 298–317 |
P. M. Bluyssen, C. Roda, C. Mandin, S. Fossati, P. Carrer, Y. de Kluizenaar, V. G. Mihucz, E. de Oliveira Fernandes and J. Bartzis |
Self-reported health and comfort in ‘modern’ office buildings: first results from the European OFFICAIR study |
'現代的'なオフィスビルにおける自己申告の健康及び快適性:ヨーロッパOFFICAIR研究からの最初の結果 |
| 318–330 |
M. Hamilton, A. Rackes, P. L. Gurian and M. S. Waring |
Perceptions in the U.S. building industry of the benefits and costs of improving indoor air quality |
室内空気改善のベネフィットとコストについての米国建築業界における認知 |
| 331–343 |
W. R. Chan, S. Parthasarathy, W. J. Fisk and T. E. McKone |
Estimated effect of ventilation and filtration on chronic health risks in U.S. offices, schools, and retail stores |
換気とろ過が米国のオフィス、学校、小売店における慢性健康リスクへ与える効果の推定 |
| Special Issue: Keynote: Indoor Air 2014 February 2016 Volume 26, Issue 1 Pages 1–152 |
| Page |
Author |
English Title |
日本語題名 |
| Editorial |
| 3–5 |
Y. Li |
The ‘impurity’ of indoor air |
室内空気の'不純物' |
| Keynote: Indoor Air 2014 |
| 6–24 |
C. J. Weschler |
Roles of the human occupant in indoor chemistry |
室内化学における居住者の役割 |
| 25–38 |
T. Salthammer |
Very volatile organic compounds: an understudied class of indoor air pollutants |
超揮発性有機化合物:授業中の教室の室内空気汚染物質 |
| 39–60 |
Y. Zhang, J. Xiong, J. Mo, M. Gong and J. Cao |
Understanding and controlling airborne organic compounds in the indoor environment: mass transfer analysis and applications |
室内環境における気中有機化合物の制御の理解:物質移動分析と応用 |
| 61–78 |
William W Nazaroff |
Indoor bioaerosol dynamics |
室内バイオエアロゾル動態 |
| 79–87 |
E. A. Nardell |
Indoor environmental control of tuberculosis and other airborne infections |
結核やその他の空気感染の室内環境制御 |
| 88–96 |
J. A. Siegel |
Primary and secondary consequences of indoor air cleaners |
空気清浄器の一次、二次影響 |
| 97–111 |
A. K. Persily |
Field measurement of ventilation rates |
換気率のフィールド調査 |
| 112–124 |
A. K. Melikov |
Advanced air distribution: improving health and comfort while reducing energy use |
進化した空気分配:エネルギー消費を減らしながら健康と快適を改善する |
| 125–137 |
Y. Zhu, Q. Ouyang, B. Cao, X. Zhou and J. Yu |
Dynamic thermal environment and thermal comfort |
動的熱環境と熱的快適性 |
| 138–152 |
P. M. Bluyssen, C. Roda, C. Mandin, S. Fossati, P. Carrer, Y. de Kluizenaar, V. G. Mihucz, E. de Oliveira Fernandes and J. Bartzis |
Thermal comfort in air-conditioned buildings in hot and humid climates – why are we not getting it right? |
空気の熱的快適性-高温及び高湿気候で空調されたビル-我々はなぜ理解できていないのか? |
