J-GLOBAL ID:202001003351712177
Update date: Mar. 13, 2026
Hirose Chiyoko
Hirose Chiyoko
Research theme for competitive and other funds (3):
2023 - 2025 Vortex scales affecting on urban ventilation, building wind, and cross ventilation
2021 - 2024 Development of a prediction method for unsteady ventilation rate within urban buildings
2019 - 2019 省エネ建築に資する自然換気・通風現象メカニズム解明に関する研究
Papers (20):
Yamamura Yuki, Hirose Chiyoko, Yamamoto Shigekazu, Sugata Seiji. Development of a Machine Learning Model for Bias Correction of Chemical Transport Models Targeting Photochemical Oxidants. Journal of Japan Society for Atmospheric Environment / Taiki Kankyo Gakkaishi. 2025. 60. 2. 11-19
Wei Wang, Chiyoko Hirose, Naoki Ikegaya. Directly determining mean and instantaneous ventilation rates using stereoscopic PIV for single-sided and cross ventilations of a cubic building. Sustainable Cities and Society. 2025
C. Hirose, D. Nakashima, C. Aoyama, H. Watanabe. Quantitative analysis of the upwelling behavior of methane bubbles in nature and numerical simulations. Deep Sea Research Part I: Oceanographic Research Papers. 2024
Wan Hazwatiamani Wan Ismail, Mohd Faizal Mohamad, Naoki Ikegaya, Jaeyong Chung, Chiyoko Hirose, Azli Abd Razak, Azlin Mohd Azmi. Comprehensive comparisons of RANS, LES, and experiments over cross-ventilated building under sheltered conditions. Building and Environment. 2024. 254. 111402-111402
W. Wang, N. Ikegaya, C. Hirose, M.F. Mohamad. Indoor flow datasets of two-layered cross-ventilation models by particle image velocimetry and hot wire anemometry. Data in Brief. 2024. 52. 109856-109856
IKEGAYA Naoki. Numerical study on the effect of turbulent field generated by simple cubical arrays on the wall pressure. Summaries of technical papers of annual meeting. 2015. 2015. 689-690
Development of the Fukuoka Air Pollution Forecasting System (Fcast) and Its Prediction Accuracy
(2025)
MEASURING MEAN AND INSTANTANEOUS VENTILATION RATES IN SINGLEVENTILATION SCENARIO OF A CUBIC BUILDING USING STEREOSCOPIC PIV
(28th National Symposium on Wind Engineering Proceedings 2024)
Pedestrian-level strong wind distribution within a simplified block array determined by particle image velocimetry
(16th International Conference on Wind Engineering 2023)
Prediction of pedestrian-level wind velocity obtained by outdoor measurement in an urban area
(16th International Conference on Wind Engineering 2023)
2018 - 2020 Kyushu University Interdisciplinary Graduate School of Engineering Sciences Department of Energy and Environmental Engineering
2013 - 2015 Kyushu University Interdisciplinary Graduate School of Engineering Sciences Department of Energy and Environmental Engineering
Work history (2):
2023/04 - 現在 Fukuoka Institute of Health and Environmental Sciences
2020/10 - 2023/03 Kyushu University Faculty of Engineering Sciences Researcher
Awards (1):
2015/03 - 日本風工学会 平成26年度 優秀修士論文賞
Association Membership(s) (4):
Japan Association for Wind Engineering
, Japan Sosciety for Atmospheric Environment
, Architectural Institute of Japan
, International Association of Urban Climate
