Researchers

Education and Career

Education

• 2006/03 - 2010/08 , ＜大学＞AJOU大学, 機械工学部,
• 2010/09 - 2012/08 , ＜大学院(修士)＞AJOU大学, 機械工学部,
• 2012/09 - 2018/02 , AJOU University, 機械工学部,

Academic & Professional Experience

• May. 2022 - Today , 早稲田大学 持続的環境エネルギー社会共創研究機構 環境エネルギーシステム総合研究所 所員
• Oct. 2020 - Today , 早稲田大学 理工学術院総合研究所 次席研究員・研究員講師
• Apr. 2020 - Sep. 2020 , 早稲田大学 理工学術院総合研究所 非常勤研究員
• Mar. 2018 - Feb. 2020 , AJOU大学工学研究所 専任研究員

Research Activities

Research Areas

• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Thermal engineering
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Measurement engineering
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Fluid engineering
• Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Thermal engineering

Research Interests

Photothermal therapy, Capacitance sensor, Cancer therapy, Liquid desiccant system, Heat Pump, Photothermal effect, Thermal properties, Two-phase flow, Low GWP refrigerant, Fluid dynamics, Thermodynamics

Published Papers

1. An aluminum finned-tube type internally-cooled deep dehumidifier using ionic liquid desiccant for low-humidity industries: Modelling and case study
   Cao, B.; Masuno, K.; Maeda, K.; Kim, M.; Wang, X.; Yin, Y.; Saito, K.
   Energy Conversion and Management  327  2025 
2. Void fraction of R32 in microfin tube under evaporation conditions using capacitance-based sensor
   Kim, M.; Maeda, K.; Sato, T.; Saito, K.
   Applied Thermal Engineering  265  2025 
3. Systematic development of multilayer-perceptron-based void fraction model
   Kim, C.-H.; Kim, M.; Sholahudin; Giannetti, N.; Saito, K.
   International Communications in Heat and Mass Transfer  162  2025 

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Conference Activities & Talks

1. Experimental Study on Helical-Structured Vertical Header for Improved Two-Phase Refrigerant Distribution , Moojoong Kim; Jongsoo Jeong; Kiyoshi Saito; Sangmu Lee; Hyunyoung Kim , Sep. 2024
2. Modelling and case study on ionic liquid desiccant-based internally cooled deep dehumidifier for low-humidity industries , Bowen CAO; Kento MAEDA; Katsuya MASUNO; Moojoong KIM; Yonggao YIN; Kiyoshi SAITO , Sep. 2024
3. Performance improvement of liquid desiccant air-conditioning system with tube-extruded distributor and surface treatment of three-fluid contactor , Katsuya MASUNO; Kento MAEDA; Bowen CAO; Moojoong KIM; Kiyoshi SAITO , IIR Gustav Lorentzen Conference on Natural Refrigerants , Sep. 2024

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MISC

1. Modelling and case study on ionic liquid desiccant-based internally cooled deep dehumidifier for low-humidity industries , Bowen CAO; Kento MAEDA; Katsuya MASUNO; Moojoong KIM; Yonggao YIN; Kiyoshi SAITO , Sep. 2024
2. Experimental Study on Helical-Structured Vertical Header for Improved Two-Phase Refrigerant Distribution , Moojoong Kim; Jongsoo Jeong; Kiyoshi Saito; Sangmu Lee; Hyunyoung Kim , Sep. 2024
3. Performance improvement of liquid desiccant air-conditioning system with tube-extruded distributor and surface treatment of three-fluid contactor , Katsuya MASUNO; Kento MAEDA; Bowen CAO; Moojoong KIM; Kiyoshi SAITO , IIR Gustav Lorentzen Conference on Natural Refrigerants , 16 , Sep. 2024

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Patents

1. AIR CONDITIONER AND CONTROLLING METHOD THEREOF , JunHyoun Kwon, JungHo Kim, SungLyul Myoung, Baek Youn, GwanTaek Kim, DaeYeon Kim, MooJoong Kim, TaeWi Kim , 特許KR102550798B1
2. Air Conditioner and Control Method Therefor , JunHyoun Kwon, JungHo Kim, SungLyul Myoung, Baek Youn, GwanTaek Kim, DaeYeon Kim, MooJoong Kim, TaeWi Kim , 特許US10773199B2
3. 空调及其控制方法 , 权埈铉, 金仲镐, 明成烈, 尹柏, 金宽宅, 金大渊, 金武重, 金泰伟

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Awards & Honors

1. Apr. 2018, KSME, Best Paper Award
2. Jun. 2015, 大韓設備工学会, Best Presenter Award

Research Grants & Projects

1. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Development of high-precision and safe measurement method based on the photothermal effect for thermal diffusivity of low GWP refrigerant , Waseda University
2. [韓国]履行分野学問後続世代養成事業, Study on the control of tumor-cell apoptosis using the optimization of temperature distribution photothermal therapy , National Research Foundation of Korea
3. 株式会社サムスン日本研究所, 一体型分配器の流動可視化と構造最適化によるRobust分流技術の開発 II , 早稲田大学

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