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HUYNH THI MINH THU, Ph.D.
Year of birth: 1983
Nationality: Vietnamese
Email: thuhtm@hcmute.edu.vn
Mobile: (+84) 93 5060 700
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Professional Summary
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· Over 10 years of experience in renewable energy both in academic and industry. Experienced working on: solar thermal, solar PV energy, biomass projects.
· Research interest: renewable energy, energy efficiency.
· Extensive knowledge of sustainable energy sources and passion for sustainable life;
· Proactive, Creative, Critical thinking, Problem-solving, Result-oriented, Teamwork, Project management, Leadership.
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EDUCATION
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Names of institutions
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Degree obtained
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Dates of obtainment
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Keio University, Japan
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Ph.D. Degree in System Design Department (Energy Lab), Center for Space & Environment Design Engineering
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2014
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Institute Teknologi Bandung (ITB), Bandung, Indonesia
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Master’s Degree in Mechanical Engineering (Solar Lab)
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2008
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Ho Chi Minh City University of Technology, Vietnam
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Bachelor Degree in Aeronautical Engineering
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2006
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EMPLOYMENT RECORD
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Dates of employment
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Name of employing organization
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Positions held
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01/2022-Present
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Ho Chi Minh City University of Technology and Education
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Lecturer
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10/2020-11/2021
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Van Lang University
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Lecturer
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08/2014 – 09/2020
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Bach Khoa Investment & Development of Solar Energy Corporation (SolarBK), Vietnam
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Director of Research & Development
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11/2012 – 08/2014
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Energy Development Center, Vietnam
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Director of Research & Development
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01/2012-02/2012
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Clean Energy Research Center, University of South Florida, USA
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Visiting Researcher
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03/2009 – 03/2012
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Keio University
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Research Assistant
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LANGUAGES
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Language
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Speaking
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Reading
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Writing
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Japanese
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Fair
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Fair
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Fair
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Indonesian
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Fair
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Fair
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Fair
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English
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Good
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Good
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Good
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Vietnamese
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Native
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Native
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Native
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PROFESSIONAL PROJECTS
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No.
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Name of the projects
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Duration
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Position
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Activities Performed
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1
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Developing a mobile desalination system using solar and wind energy
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2013-2015
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Member
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- Project management
- Developing control algorithm
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2
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Development of a remote monitoring platform for solar energy application
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2014-2019
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Member
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- Remotely monitor solar system and quick response to incidents & services for O&M business
- System Performance analysis
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3
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Solar-power system EPC optimization
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2014-2019
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Member
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- Implementation of industrial standard PV Design software: PVSyst, Archelios
- Implementation of “solar industry” tools: SunEye, PV Analyzer, Power Quality Analyzer,…
- Implementation of IEC Standard in Solar System Commissioning
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3
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Developing Operation & Maintenance platform of Solar System
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2015-2019
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Member
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- Develop O & M dept.
- Building facility and technical team
- Perform O&M Services for PV solar system and solar water heating system
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PUBLICATIONS
1. Minh-Thu T Huynh and Y Q Nguyen. Effects of inlet area on heat transfer performance of a solar chimney. AIP Conference Proceedings 2420, 020024 (2021).
2. Y Q Nguyen and Minh-Thu T Huynh. A Numerical Study on the Performance of a Solar Chimney with Expanded Inlet. AIP Conference Proceedings 2420, 020023 (2021).
3. Y Q Nguyen and Minh-Thu T Huynh. Effects of inlet area on performance of a solar chimney for natural ventilation and heating of buildings. AIP Conference Proceedings 2406, 020024 (2021).
4. Ngoc Thinh Doan, Minh-Thu T Huynh and Y Q Nguyen. Prediction of flow field and mass flow rate in a solar chimney at different heights using ANFIS technique. AIP Conference Proceedings 2406, 020030 (2021).
5. Y Q Nguyen, Ngoc Thinh Doan and Minh-Thu T Huynh. Using ANFIS technique for prediction of heat transfer in vertical solar chimney. AIP Conference Proceedings 2406, 020032 (2021).
6. Y Q Nguyen, Minh-Thu T Huynh and Tung V. Nguyen. Effects of the forced air temperature on the induced flow rate through a combined natural–forced flow in a solar chimney. AIP Conference Proceedings 2406, 060013 (2021).
7. Minh-Thu T Huynh, Tri Q Truong, Thinh N Doan, Trieu N Huynh, Tung V Nguyen, Viet T Nguyen and Y Q Nguyen. Prediction of flow field in a solar chimney using ANFIS technique. IOP Conf. Ser.: Mater. Sci. Eng. 1109 012067.
8. Minh-Thu T Huynh, Thinh N Doan and Y Q Nguyen. Using ANFIS technique in prediction of reverse flow in a solar chimney. IOP Conf. Ser.: Mater. Sci. Eng. 1109 012036.
9. Doan Anh Tuan and Huynh T. M. Thu. Experiment on a desalination system integrated with renewable energy with capacity of 200-300 liters/hour. The University of Da Nang - Journal of Science and Technology, pp. 97-100, Da Nang, Vietnam, May 2015.
10. Huynh T. M. Thu and H. Sato. Proposal of an eco-friendly high-performance air-conditioning system. Part 2. Application of evapo-transpiration condenser to residential air-conditioning system. International Journal of Refrigeration, Vol. 36, No. 6, pp. 1596-1601, September 2013.
11. Huynh T. M. Thu and H. Sato. Proposal of an eco-friendly high-performance air-conditioning system. Part 1. Possibility of improving existing air-conditioning system by an evapo-transpiration condenser. International Journal of Refrigeration, Vol. 36, No. 6, pp. 1589-1595, September 2013.
12. Huynh T. M. Thu and H. Sato. A non-waste-heat air conditioning system using water evaporation and decompressed solar panel. ISES Solar World Congress 2011, pp. 1015-1020, Kassel, Germany, Aug 28th-Sep 2nd 2011.
13. Huynh T. M. Thu and H. Sato. Proposal of a small exhaust heat air conditioning system. National Environment Symposium 2011 of Japan Society of Mechanical Engineering (JSME), pp. 325-328, Tokyo, Japan, Jun 30th-Jul 1st 2011.
14. Huynh T. M. Thu, T. Hasegawa and H. Sato. Development of high COP cooling system using transpiration. Renewable Energy 2010, O-He-5-1, Pacifico Yokohama, Yokohama, Japan, Jun 28th – Jul 3rd 2010.
15. T. Hasegawa, T. Sakabe, Huynh T. M. Thu and H. Sato. Fundamental study on air-conditioning technology using transpiration for energy saving. 47th National Heat transfer Symposium 2010, pp. 221-222, Hokkaido, Japan, May 26th-28th, 2010.
16. Huynh T. M. Thu, T. Hasegawa and H. Sato. A new concept of cooling system using transpiration. The 2nd AUN/SEED-Net Regional Conference on New/Renewable Energy, D_004, Thailand, Jan 21st-22nd 2010.
17. Huynh T. M. Thu, H. Abdurrachim and H. Sato. Simulation of multi-effect decompressed boiling solar water distillation system. International Journal of Energy Machinery, Vol. 2, No. 1, pp. 53-60, August 2009.