Rchr
J-GLOBAL ID:201901000480971294
Update date: Jul. 17, 2024
WONJUN CHOI
ツェ ウォンジュン | WONJUN CHOI
Affiliation and department:
Research field (1):
Construction environment and equipment
Research theme for competitive and other funds (3):
- 2020 - 2023 Development of urban wind estimation method based on sparse sensor network
- 2020 - 2023 Construction of digital twin that fuses AI and physical model to optimize building energy system
- 2020 - 2022 New design method of ground heat exchangers by simultaneous estimation of ground and backfill thermal properties
Papers (20):
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Wonjun Choi, Hideki Kikumoto, Ryozo Ooka. Probabilistic uncertainty quantification of borehole thermal resistance in real-world scenarios. Energy. 2022. 254. 124400-124400
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Wonjun Choi, Ruchi Choudhary, Ryozo Ooka. Development of chiller-attached apparatus for accurate initial ground temperature measurement: Insights from global sensitivity analysis of thermal response tests. Energy and Buildings. 2021. 238
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Hideki Kikumoto, Wonjun Choi, Ryozo Ooka. Corrigendum to “Development of probabilistic assessment framework for pedestrian wind environment using Bayesian technique” [Build. Environ. 187 (2021) 107419] (Building and Environment (2021) 187, (S0360132320307861), (10.1016/j.buildenv.2020.107419)). Building and Environment. 2021. 191
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Hideki Kikumoto, Wonjun Choi, Ryozo Ooka. Development of probabilistic assessment framework for pedestrian wind environment using Bayesian technique. Building and Environment. 2021. 187. 107419-107419
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Wonseok Oh, Ryozo Ooka, Junta Nakano, Hideki Kikumoto, Osamu Ogawa, Wonjun Choi. Development of physiological human model considering mist wettedness for mist-spraying environments. Building and Environment. 2020. 180
more...
MISC (2):
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Wonjun Choi, Hideki Kikumoto, Ryozo Ooka. Two thermal performance test (TPT) datasets of a single U-tube borehole heat exchanger with inlet setpoint temperatures of 30 °C and 40 °C. Data in Brief. 2018. 20. 1769-1774
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CHOI Wonjun, OOKA Ryozo. 41562 Parameter estimation method combined with multi-heat injection rate thermal response test to determine effect of natural convection in saturated porous formation. Summaries of technical papers of annual meeting. 2015. 2015. 1181-1182
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