Faculty Profiles - WANG ZHENYING

Information

写真a

WANG ZHENYING

Organization

Faculty of Engineering Department of Aeronautics and Astronautics Assistant Professor
School of Engineering （Concurrent）
Graduate School of Engineering Department of Aeronautics and Astronautics（Concurrent）

Contact information

Tel

0928023054

Profile

Main research topics: multicomponent thermofluids; micro/nano scale phase change heat transfer; energy systems

Homepage

https://aero.apl-kyushu.page/
Aerospace Propulsion Laboratory (APL)

External link

Degree

Bachelor
Master in Engineering
PhD in Engineering

Research Interests・Research Keywords

Research theme： Multiscale Investigation of Multicomponent Thermofluids

Keyword： Thermofluids, phase change, wetting, direct numerical simulation

Research period： 2022.4 - 2027.3

Awards

Best Presentation Award for Young Scholars, Droplets 2023

2023.8
花王Crescent Award

2022.3 公益財団法人花王芸術・科学財団
日本伝熱学会奨励賞

2021.5 日本伝熱学会
日本伝熱学会奨励賞

2021.5 Young Researcher Award of the Heat Transfer Society of Japan
国家優秀自費留学生奨学金

2020.2 中国国家自然科学基金委員会 Chinese Government Award for Outstanding Self-Financed Students Abroad
九州大学学生表彰（学術研究活動）

2019.9 九州大学 Research Achievement Award
優秀プレゼンテーション賞

2018.2 5th European Conference on MicroFluidics, Strasbourg, France Best Presentation Award – 1st place
エネルギーウィークポスター発表会優秀賞

2018.1 九州大学 Best Poster Award, 2018 Energy Week
エネルギー研究教育機構若手研究者支援プログラム奨励賞

2017.10 九州大学 Research Encouragement Award, Kyushu University Platform of Inter/Transdisciplinary Energy Research
博士後期課程奨学金

2017.8 九州大学 Doctoral Program Scholarship
優秀修士卒業生

2017.7 中国清華大学 Graduate with Honors
優秀修士論文

2017.6 中国清華大学 Excellent Master's Thesis
トップ学生論文賞

2017.1 アメリカ暖房冷凍空調学会冬季大会, Las Vegas, US Top Student Paper Award
国家奨学金

2016.11 中華人民共和国教育部 National Scholarship for Graduate Students
国家奨学金

2015.11 中華人民共和国教育部 National Scholarship for Graduate Students

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Papers

Role of Volatility and Thermal Properties in Droplet Spreading: A Generalization to Tanner’s Law Reviewed International journal

@Wang Zhenying, @Karapetsas George, @Valluri Prashant

Journal of Fluid Mechanics 2024.4

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Droplet spreading is ubiquitous and plays a significant role in liquid-based energy systems, thermal management devices, and microfluidics. While the spreading of non-volatile droplets is quantitatively understood, the spreading and flow transition in volatile droplets remains elusive due to the complexity added by interfacial phase change and non-equilibrium thermal transport. Here we show, using both mathematical modeling and experiments, that the wetting dynamics of volatile droplets can be scaled by the spatial-temporal interplay between capillary, evaporation, and thermal Marangoni effects. We elucidate and quantify these complex interactions using phase diagrams based on systematic theoretical and experimental investigations. A spreading law of evaporative droplets is derived by extending Tanner’s law (valid for non-volatile liquids) to a full range of liquids with saturation vapor pressure spanning from $10^1$ to $10^4$ Pa and on substrates with thermal conductivity from $10^{-1}$ to $10^3$ W/m/K. Besides its importance in fluid-based industries, the conclusions also enable a unifying explanation to a series of individual works including the criterion of flow reversal and the state of dynamic wetting, making it possible to control liquid transport in diverse application scenarios.

DOI： 10.1017/jfm.2024.385
Temperature-dependent water slip flow combined with capillary evaporation in graphene nanochannels

Kun Cheng, Qin-Yi Li, Zhenying Wang, Takanobu Fukunaga, Hideaki Teshima, Koji Takahashi

International Journal of Heat and Mass Transfer 2024.3

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DOI： 10.1016/j.ijheatmasstransfer.2024.125451
Flow structure near three phase contact line of low-contact-angle evaporating droplets

Zhenying Wang, George Karapetsas, Prashant Valluri, Chihiro Inoue

Applied Physics Letters 2024.3

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Flow structure near three phase contact line (TPCL) of evaporating liquids plays a significant role in liquid wetting and dewetting, liquid film evaporation and boiling, etc. Despite the wide focus it receives, the interacting mechanisms therein remain elusive and in specific cases, controversial. Here, we reveal the profile of internal flow and elucidate the dominating mechanisms near TPCL of evaporating droplets, using mathematical modelling, trajectory analysis, and infrared thermography. We indicate that for less volatile liquids such as butanol, the flow pattern is dominated by capillary flow. With increasing liquid volatility, e.g., alcohol, the effect of evaporation cooling, under conditions, induces interfacial temperature gradient with cold droplet apex and warm edge. The temperature gradient leads to Marangoni flow that competes with outwarding capillary flow, resulting in the reversal of interfacial flow and the formation of a stagnation point near TPCL. The spatiotemporal variations of capillary velocity and Marangoni velocity are further quantified by mathematically decomposing the tangential velocity of interfacial flow. The conclusions can serve as a theoretical base for explaining deposition patterns from colloidal suspensions, and can be utilized as a benchmark in analyzing more complex liquid systems.

DOI： 10.1063/5.0197919
Optimal Liquid Engine Architecture by Performance-Cooling Tradeoff Analysis

Soma Tauchi, Chihiro Inoue, Zhenying Wang, Yu Daimon, Go Fujii

Journal of Propulsion and Power 2024.3

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<jats:p> We perform physics-based theoretical analyses on the tradeoff between the overall performance of specific impulse and the thermal protection ability of a coolant liquid film to identify the optimal configuration of a liquid rocket engine. A bipropellant thruster is set as the target, which uses a hypergolic propellant mixture of nitrogen tetroxide as the oxidant and monomethyl hydrazine as the fuel. By considering the practical nonuniform distribution of the local mixture ratio produced in the thrust chamber, the maximum specific impulse is achieved when the fuel and oxidizer spray widths become identical, allowing for the specification of the diameter of the impinging-type injector. The heat balance between the convective heat transfer from the combustion gas and the latent heat of the three-dimensionally wavy liquid film provides the optimal diameter of the combustion chamber. The longest liquid film is found to be achieved when half of the initial film is entrained by the fast gas, correspondingly mitigating the heat transfer area due to the liquid film waviness. We successfully demonstrate the optimal architecture of the liquid engine based on the tradeoff, in which an improvement of specific impulse by 1 s shortens the film length by 2 mm. </jats:p>

DOI： 10.2514/1.b39409
Trapping waste metal ions in a hydrogel/coal powder composite for boosting sewage purification via solar-driven interfacial water evaporation with long-term durability

Zhichao Zuo, Fengbo Zhu, Lian Wang, Zequn Wang, Jianhang Zhao, Zhiteng Ji, Meng An, Ya Nan Ye, Wenwen Yu, Zhenying Wang, Yanqin Wang, Qiang Zheng

Chemical Engineering Journal 2024.2

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DOI： 10.1016/j.cej.2024.148524
In-situ 1-kHz real-time particle tracking velocimetry using high-speed streaming camera Reviewed International journal

@Ichimura, T., @Inoue, C., @Wang, Z., @Kuwabara, G., @Tahara, K.

Flow Measurement and Instrumentation 91 102361 2023.6

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DOI： https://doi.org/10.1016/j.flowmeasinst.2023.102361
Parametric analysis of interfacial friction factor for liquid film dynamics sheared by turbulent gas flow Reviewed International journal

#Inoue, T., #Kamada, Y., @Inoue, C., @Wang, Z.

International Journal of Gas Turbine, Propulsion and Power Systems 13 ( 3 ) 1 - 6 2022.11

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DOI： https://doi.org/10.38036/jgpp.13.3_1
Fragmentation and solidification of fusible alloy melt by water spray

Wataru Hikita, Shodai Hirayama, Chihiro Inoue, Zhenying Wang, Makoto Nakaseko, Takuya Takashita

Powder Technology 409 117778 - 117778 2022.9

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Language：Others Publishing type：Research paper (scientific journal)

DOI： 10.1016/j.powtec.2022.117778
Wetting and evaporation of multicomponent droplets

Zhenying Wang, Daniel Orejon, Yasuyuki Takata, Khellil Sefiane

Physics Reports 960 1 - 37 2022.5

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DOI： 10.1016/j.physrep.2022.02.005
Dynamics of hygroscopic aqueous solution droplets undergoing evaporation or vapour absorption

Zhenying Wang, George Karapetsas, Prashant Valluri, Khellil Sefiane, Adam Williams, Yasuyuki Takata

Journal of Fluid Mechanics 2021.4

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DOI： 10.1017/jfm.2020.1073
Lubrication Model for Vapor Absorption/Desorption of Hygroscopic Liquid Desiccant Droplets Reviewed International journal

@Wang, Z., @Karapetsas, G., @Valluri, P., @Sefiane, K., @Takata, Y.

Advances in Heat Transfer and Thermal Engineering 67 - 70 2021.2

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Effect of substrate conductivity on the transient thermal transport of hygroscopic droplets during vapor absorption Reviewed International journal

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

Micromachines 11 ( 2 ) 2020.2

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DOI： doi.org/10.3390/mi11020193
Effect of Substrate Conductivity on the Transient Thermal Transport of Hygroscopic Droplets during Vapor Absorption

Zhenying Wang, Daniel Orejon, Khellil Sefiane, Yasuyuki Takata

Micromachines 2020.2

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<jats:p>In all kinds of liquid desiccant dehumidification systems, the temperature increase of the desiccant solution due to the effect of absorptive heating is one of the main reasons of performance deterioration. In this study, we look into the thermal effects during vapor absorption into single hygroscopic liquid desiccant droplets. Specifically, the effect of substrate conductivity on the transient heat and mass transfer process is analyzed in detail. The relative strength of the thermal effect and the solutal effect on the rate of vapor absorption is investigated and compared to the thermal effect by evaporative cooling taking place in pure water droplets. In the case of liquid desiccants, results indicate that the high thermal conductivity of copper substrates ensures more efficient heat removal, and the temperature at the droplet surface decreases more rapidly than that on Polytetrafluoroethylene (PTFE) substrates. As a result, the initial rate of vapor absorption on copper substrates slightly outweighs that on PTFE substrates. Further analysis by decomposing the vapor pressure difference indicates that the variation of vapor pressure caused by the temperature change during vapor absorption is much weaker than that induced by the concentration change. The conclusions demonstrate that a simplified isothermal model can be applied to capture the main mechanisms during vapor absorption into hygroscopic droplets even though it is evidenced to be unreliable for droplet evaporation.</jats:p>

DOI： 10.3390/mi11020193
Coupled thermal transport and mass diffusion during vapor absorption into hygroscopic liquid desiccant droplets

Zhenying Wang, Daniel Orejon, Khellil Sefiane, Yasuyuki Takata

International Journal of Heat and Mass Transfer 134 1014 - 1023 2019.5

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DOI： 10.1016/j.ijheatmasstransfer.2019.01.084
Evaporation kinetics of pure water drops: Thermal patterns, Marangoni flow, and interfacial temperature difference

Tejaswi Josyula, Zhenying Wang, Alexandros Askounis, Daniel Orejon, Sivasankaran Harish, Yasuyuki Takata, Pallab Sinha Mahapatra, Arvind Pattamatta

Physical Review E 98 ( 5 ) 2018.11

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DOI： 10.1103/physreve.98.052804
Water vapor uptake into hygroscopic lithium bromide desiccant droplets: mechanisms of droplet growth and spreading

Zhenying Wang, Daniel Orejon, Khellil Sefiane, Yasuyuki Takata

Physical Chemistry Chemical Physics 21 ( 3 ) 1046 - 1058 2018.10

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<p>Mechanisms of droplet growth and spreading, related to surface wettability, are investigated during vapor absorption into hygroscopic lithium bromide desiccant droplets.</p>

DOI： 10.1039/c8cp04504f
Coupled thermal transport and mass diffusion during vapor absorption at the droplet scale

Wang, Zhenying, Orejon, Daniel, Valluri, Prashant, Takata, Yasuyuki, Sefiane, Khellil

Bulletin of the American Physical Society 2018.8

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A novel flue gas heat recovery system based on low-pressure regeneration liquid desiccant cycle

Xiaoyue Zhang, Zhenying Wang, Zhen Li

INTERNATIONAL JOURNAL OF LOW-CARBON TECHNOLOGIES 13 ( 1 ) 1 - 5 2018.3

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Flue gas from natural gas boilers contains much water vapor, so the latent heat occupies a large proportion of the total waste heat. This paper introduces a flue gas driven absorption system based on low-pressure regeneration liquid cycle to recover water and waste heat, especially the latent heat. The concentrated liquid desiccant is sprayed into the packed tower to absorb the vapor from the low-temperature flue gas and gets diluted itself. Then the diluted desiccant is heated and concentrated by the high-temperature flue gas in the vacuum regenerator. The evaporated water from the regenerator then releases condensation heat to the return water of the heating network. Based on the thermodynamic model of the new system, the simulation results show that the flue gas (200 degrees C, 120 g/kg) is eventually released to the atmosphere at 53 degrees C with a humidity ratio of 46 g/kg, which means considerable heat is recovered by the system. The heat and water recovery of the new system is not constrained by the dew point of the flue gas. It also lowers the requirement of the generation temperature due to vacuum regeneration. So in terms of heat recovery, the new system outperforms the traditional condensing system and the open-cycle absorption system by 28.3% and 23.1%, respectively. The new system also helps to reduce particulate emissions and recover water, with a recovery of 0.36 tons of water per hour according to the simulation result based on the boiler with a power of 2.8 MW.

DOI： 10.1093/ijlct/ctx013
Waste heat and water recovery from natural gas boilers: Parametric analysis and optimization of a flue-gas-driven open absorption system

Zhenying Wang, Xiaoyue Zhang, Jianfeng Han, Zhen Li

Energy Conversion and Management 154 526 - 537 2017.12

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DOI： 10.1016/j.enconman.2017.11.042
Investigation on the coupled heat and mass transfer process between extremely high humidity air and liquid desiccant in the counter-flow adiabatic packed tower

Zhenying Wang, Xiaoyue Zhang, Zhen Li

International Journal of Heat and Mass Transfer 110 898 - 907 2017.7

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DOI： 10.1016/j.ijheatmasstransfer.2017.03.072
数据中心制冷系统冷源选择及能效分析

Zhenying Wang, Hanwen Cao, Zhen Li

工程热物理学报 2017.2

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Simulation of a flue gas driven open absorption system for waste heat recovery from fossil fuel boilers

Wang, Zhenying, Zhang, Xiaoyue, Li, Zhen

ASHRAE Transactions 123 ( 1 ) 2017.1

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Evaluation of a flue gas driven open absorption system for heat and water recovery from fossil fuel boilers

Zhenying Wang, Xiaoyue Zhang, Zhen Li

Energy Conversion and Management 128 57 - 65 2016.11

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DOI： 10.1016/j.enconman.2016.09.050
Analysis on energy efficiency of an integrated heat pipe system in data centers

Zhenying Wang, Xiaotong Zhang, Zhen Li, Ming Luo

Applied Thermal Engineering 90 937 - 944 2015.11

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DOI： 10.1016/j.applthermaleng.2015.07.078

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Presentations

Intricate Role of Thermal Properties and Volatility in Droplet Spreading: A Generalization to Tanner’s Law International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

76th Annual Meeting of the American Physical Society’s Division of Fluid Dynamics 2023.11

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Event date： 2024.4

Language：English Presentation type：Oral presentation (general)

Venue：Washington DC Country：United States
Spreading Law of Evaporative Droplets International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

Droplets 2023 2023.8

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Event date： 2024.4

Language：English Presentation type：Oral presentation (general)

Venue：Beijing Country：China
Droplet Spreading Revisited: A Generalization to Tanner’s Law International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

11th International Conference on Boiling and Condensation Heat Transfer 2023.5

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Event date： 2023.5

Language：English Presentation type：Oral presentation (general)

Venue：Edinburgh Country：United Kingdom
Quantifying the interacting mechanisms in shape evolution of sessile volatile droplets International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

75th Annual Meeting of the American Physical Society’s Division of Fluid Dynamics 2022.11

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Event date： 2023.5

Language：English Presentation type：Oral presentation (general)

Venue：Indianapolis Country：United States
Lubrication Type Model for Wetting Dynamics of Multicomponent Droplets International conference

＠Wang, Z., @Karapetsas G., @Valluri P., @Inoue C

11th International Conference on Multiphase Flow 2023.4

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Event date： 2023.4

Language：English Presentation type：Oral presentation (general)

Venue：Kobe Country：Japan
Total heat recovery from industrial flue gases with varied moisture contents using the liquid desiccant technology International conference

@Wang, Z., @Zhang, X., @Li, Z.

ASHRAE Winter Conference 2017 2017.2

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Event date： 2022.6

Language：English

Country：Japan
水蒸気吸収に伴う液滴ダイナミクスと熱物質移動過程の解析

@Zhenying Wang

日本伝熱学会第7回相変化界面研究会 2020.6

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Event date： 2022.6

Language：English

Country：Japan
Vapor absorption phenomenon onto liquid desiccant droplet driven by vapor pressure difference International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

5th European Conference on MicroFluidics 2018.2

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Event date： 2022.6

Language：English

Country：Japan
How do single liquid desiccant droplets behave during vapour absorption?

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y

Kyushu University Energy Week 2018 2018.1

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Event date： 2022.6

Language：English

Country：Japan
Spreading Law of Evaporative Droplets Invited

@Wang Zhenying

OIST Micro/Bio/Nanofluidics (Shen) Unit 2024.2

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Event date： 2024.4

Language：English Presentation type：Oral presentation (general)

Venue：Okinawa Country：Japan
三相界線近傍の流れ場の可視化とシミュレーション Visualization and Simulation of Flow Field near Three Phase Contact Line

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

日本機械学会熱工学コンファレンス2023 2023.10

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Event date： 2024.4

Language：English Presentation type：Oral presentation (general)

Venue：神戸 Country：Japan
Droplet Spreading Revisited: A Generalization to Tanner’s Law

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

日本伝熱学会第60回日本伝熱シンポジウム 2023.5

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Event date： 2023.5

Language：English Presentation type：Oral presentation (general)

Venue：Fukuoka Country：Japan
Dropwise to Filmwise Transition in Low Contact Angle Condensation

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

日本機械学会熱工学コンファレンス2022 2022.10

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Event date： 2023.5

Language：English Presentation type：Oral presentation (general)

Venue：Tokyo Country：Japan
Quantitative analysis on the interacting mechanisms in wetting dynamics of sessile volatile droplets

@Wang, Z., @Karapetsas G., @Valluri P., @Inoue C.

日本機械学会第100期流体工学部門講演会 2022.11

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Event date： 2023.5

Language：English Presentation type：Oral presentation (general)

Venue：Kumamoto Country：Japan
Lubrication model for vapor absorption into hygroscopic liquid desiccant droplets International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Williams A., @Sefiane, K., @Takata, Y.

72nd Annual Meeting of the American Physical Society’s Division of Fluid Dynamics 2019.6

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Event date： 2022.11 - 2022.6

Language：English

Country：Japan
Microscale phase change promotes the rational design of energy systems

@Zhenying Wang

I2CNER 182nd Institute Interest Seminar Series 2020.6

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Event date： 2022.8 - 2022.6

Language：English

Country：Japan
Investigation on the coupled heat and mass transfer process between extremely high humidity air and liquid desiccant in the counter-flow adiabatic packed tower International conference

@Wang, Z., @Zhang, X., @Li, Z.

4th International Forum on Heat Transfer 2016.10

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Event date： 2022.6

Language：English

Country：Japan
Pattern formation of plasmonic nanoparticles from drying droplets controlled by solar radiation

@Wang, Z., #Sakata, R., @Ikuta, T., @Li, Q., @Takahashi, K., @Takata, Y.

第58回日本伝熱シンポジウム 2021.5

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Event date： 2022.6

Language：English

Country：Japan
Mechanisms of vapor absorption into hygroscopic aqueous solution droplets International conference

@Zhenying Wang

Progress 100 Symposium/2nd ThermaSMART Annual Workshop 2019.11

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Event date： 2022.6

Language：Japanese

Country：Japan
Spreading of hygroscopic ionic solution droplets during vapor absorption International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Sefiane, K., @Takata, Y.

73rd Annual Meeting of the American Physical Society’s Division of Fluid Dynamics 2020.11

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Event date： 2022.6

Language：English

Country：Japan
Lubrication model for vapor absorption/desorption of hygroscopic liquid desiccant droplets International conference

@Wang, Z., @Karapetsas G., @Valluri P., @Williams A., @Sefiane, K., @Takata, Y.

16th UK Heat Transfer Conference 2019.9

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Event date： 2022.6

Language：English

Country：Japan
Vapor absorption into hygroscopic liquid desiccant droplets: Mechanisms of droplet growth and spreading International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

6th ASME Micro/Nanoscale Heat & Mass Transfer International Conference 2019.8

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Event date： 2022.6

Language：Japanese

Country：Japan
Lubrication model for vapor absorption into hygroscopic liquid desiccant droplets

@Wang, Z., @Karapetsas G., @Valluri P., @Williams A., @Sefiane, K., @Takata, Y.

第56回日本伝熱シンポジウム 2019.5

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Event date： 2022.6

Language：English

Country：Japan
Coupled thermal transport and mass diffusion during vapor absorption into hygroscopic liquid desiccant droplets International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

7th International Symposium on Micro and Nano Technology 2019.5

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Event date： 2022.6

Language：English

Country：Japan
Vapor absorption into hygroscopic liquid desiccant droplets and guidance for packed tower design International conference

@Wang, Z., @Orejon, D., @Takata, Y., @Sefiane, K.

5th International Conference on Polygeneration 2019.5

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Event date： 2022.6

Language：English

Country：Japan
Coupled thermal transport and mass diffusion during vapor absorption at the droplet scale International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y

71st Annual Meeting of the American Physical Society’s Division of Fluid Dynamics 2018.11

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Event date： 2022.6

Language：Japanese

Country：Japan
Effect of surface wettability and relative humidity on the vapor absorption process onto liquid desiccant droplets International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y

10th International Conference on Boiling and Condensation Heat Transfer 2018.3

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Event date： 2022.6

Language：English

Country：Japan
Vapor absorption phenomenon into sessile liquid desiccant droplets International conference

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

16th International Heat Transfer Conference 2018.8

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Event date： 2022.6

Language：English

Country：Japan
Coupled thermal transport and mass diffusion during vapor absorption at the droplet scale

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

3th KU-NCU Joint Student Workshop 2018.7

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Event date： 2022.6

Language：English

Country：Japan
Vapor absorption into liquid desiccant droplets: Analysis on the heat and mass transfer process

@Wang, Z., @Orejon, D., @Sefiane, K., @Takata, Y.

第55回日本伝熱シンポジウム 2018.5

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Event date： 2022.6

Language：English

Country：Japan

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Professional Memberships

日本伝熱学会
日本機械学会
American Physical Society

Academic Activities

座長 International contribution

76th Annual Meeting of the Division of Fluid Dynamics, American Physical Society, Washington DC, 2023 （ Washington DC UnitedStatesofAmerica ） 2023.11

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座長

日本機械学会熱工学コンファレンス2023 （ Japan ） 2023.10

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座長

第60回日本伝熱シンポジウム（ Japan ） 2023.5

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実行委員会委員

第60回日本伝熱シンポジウム（ Japan ） 2023.5

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Screening of academic papers

Role(s)： Peer review

2023

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Type：Peer review

Number of peer-reviewed articles in foreign language journals：2
Screening of academic papers

Role(s)： Peer review

2022

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Type：Peer review

Number of peer-reviewed articles in foreign language journals：5
Screening of academic papers

Role(s)： Peer review

2021

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Type：Peer review

Number of peer-reviewed articles in foreign language journals：3
Screening of academic papers

Role(s)： Peer review

2020

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Type：Peer review

Number of peer-reviewed articles in foreign language journals：9

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Research Projects

研究助成 2023年度豊田理研スカラーペロブスカイト太陽電池の蒸着型製造における熱流体物理

2023

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Grant type：Donation
高速温度計測とInfi-TOFの複合分析による金属液滴連鎖分裂の凝縮相反応流解析

Grant number：22K18771 2022 - 2023

Japan Society for the Promotion of Science Grants-in-Aid for Scientific Research Challenging Research(Exploratory)

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Authorship：Coinvestigator(s) Grant type：Scientific research funding
金属液滴に発現する連鎖分裂カスケードの機構解明と数理モデル開発

Grant number：21H01251 2021 - 2024

Japan Society for the Promotion of Science Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (B)

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Authorship：Coinvestigator(s) Grant type：Scientific research funding
原子間力顕微鏡による三相界線ナノ構造のダイナミック解析

Grant number：21K14097 2021 - 2024

Japan Society for the Promotion of Science Grants-in-Aid for Scientific Research Early-Career Scientists

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Authorship：Principal investigator Grant type：Scientific research funding
酸化被膜を有する高温表面に衝突するマイクロスケール液滴のダイナミクス

Grant number：18J11928 2018 - 2019

Japan Society for the Promotion of Science Grants-in-Aid for Scientific Research Grant-in-Aid for Encouragement of Scientists

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Authorship：Principal investigator Grant type：Scientific research funding
Vapor absorption/desorption phenomena of sessile desiccant droplets on solid surfaces

2017 - 2018

エネルギー研究教育機構若手研究者・博士課程学生支援プログラム

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Authorship：Principal investigator Grant type：On-campus funds, funds, etc.

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Educational Activities

Specialized English

Class subject

専門英語

2023.10 - 2024.3 Second semester
専門英語

2022.10 - 2023.3 Second semester
専門英語

2021.10 - 2022.3 Second semester

Visiting, concurrent, or part-time lecturers at other universities, institutions, etc.

2022 九州大学カーボンニュートラル・エネルギー国際研究所

Travel Abroad

2018.9 - 2019.3

Staying countory name 1：United Kingdom Staying institution name 1：University of Edinburgh
2013.1 - 2013.5

Staying countory name 1：Singapore Staying institution name 1：National University of Singapore