Dr. Win Pa Pa Myo, Ph.D

Department of Mechanical Engineering
Mandalay Technological University
Patheingyi Township
Mandalay

+95-9457778118

winpapamyo@mtu.edu.mm, winpapamyomechmtu@gmail.com

Education Profile

April2014-March 2018Doctor of EngineeringDepartment of Mechanical System Engineering, Nagasaki University, Japan
April2004-March 2007Doctor of PhilosophyDepartment of Mechanical Engineering, Mandalay Technological University
April 2002- March 2003Master of EngineeringDepartment of Mechanical Engineering, Yangon Technological University
Dec 1998 – Nov 2002Bachelor of EngineeringDepartment of Mechanical Engineering, Mandalay Technological University

Work Experience

March 2017 – PresentProfessorDepartment of Mechanical Engineering, Mandalay Technological University
June 2008-March 2017Associate ProfessorDepartment of Mechanical Engineering, Mandalay Technological University
January 2005- May 2008LecturerDepartment of Mechanical Engineering, Mandalay Technological University
June 2002- December 2004Assistant LecturerDepartment of Mechanical Engineering, Technological University (Tang Oo)
May 1998 – April 2002InstructorDepartment of Mechanical Engineering, Mandalay Technological University

Teaching Subjects, Research Interests and Responsibility

Current Teaching Subjects  Transport Phenomena, Advanced Heat Transfer
Research InterestsFilm Boiling Heat Transfer , Phase Change Heat Transfer
ResponsibilitiesHead of Department, Thermodynamic and Heat Transfer Lab: Supervising COE, Master, Ph.D researches Teaching COE, Master, Ph.D students

Publication

JOURNALS

1.  Win Pa Pa Myo, Satoru Momoki, Tomohiko Yamaguchi (2018). Modification on Prediction Method of Heat Transfer Coefficient from a Vertical-Finite-Length Cylinder in Saturated Film Boiling to Discuss Local Heat Transfer Performance near Lower Corner. Journal on Thermal Science and Technology , Vol 13, Issue 1, page 1-12

PROCEEDINGS

1.  Win Pa Pa Myo, Satoru Momoki, Toru Shigechi, Takashi Yamada, Tomohiko Yamaguchi Masaki Kumura (2015). Study on the Lower Limit of Saturated and Subcooled Film Boiling on Finite-Length Vertical Cylinders of Different Geometry. The Sixth International Conference on Science and Engineering, 2015, December.
 2. Win Pa Pa Myo, Satoru Momoki, Tomohico Yamaguchi, Masaki Kumura, Takuya Higuchi (2016). Study on the Collapse Point of Vapor Film in the Transient Film Boiling around the Finite Length Vertical Cylinders with Various Geometries. The 53rd National Heat Transfer Symposium, 2016, May.
 3. Win Pa Pa Myo, Satoru Momoki, Tomohiko Yamaguchi (2016).Effect of Local Heat Transfer Coefficient on Lower Limit of  Saturated Film Boiling of Finite Length Vertical Cylinder. The Forth International Forum on Heat Transfer, 2016, November.
 4. Win Pa Pa Myo, Satoru Momoki, Toru Shigechi , Takashi Yamada, Tomohiko Yamaguchi (2016). An Analysis on Local Heat Transfer Performance at the Lower Limit of Saturated Film Boiling on Finite-Length Vertical Cylinders. The Seventh International Conference on Science and Engineering, 2016, December.
 5. Win Pa Pa Myo, Satoru Momoki, Toru Shigechi , Takashi Yamada, Tomohiko Yamaguchi (2017). An Analysis on Local and Average Heat Transfer Performance on each Surface of a Vertical-Finite-Length Cylinder in Saturated and Subcooled Film Boiling. Young Myanmar Researcher’s Meeting for future Technology, 2017, October .
6.  Win Pa Pa Myo, Satoru Momoki, Tomohiko Yamaguchi (2017). Estimation of Heat Transfer Coefficients around the Vertical-Finite Length Cylinders of Different Aspect Ratio on Saturated Film Boiling. The Eighth International Conference on Science and Engineering, 2017, December.
 7. Win Pa Pa Myo, Satoru Momoki, Nyein Aye San (2018). Investigation of Surface Temperature Distribution during Film Boiling of Finite-Length Vertical Cylinder. International Conference on Science Technology and Innovation, 2018, October .
 8. Satoru MOMOKI, Win PA PA MYO, Tomohiko YAMAGUCHI (2017). Consideration of Heat Transfer Performance and the Collapse Point of Vapor Film in the Saturated Transient Film Boiling around a Finite-Length Vertical Cylinder. The 54th  National Heat Transfer Symposium, 2017, December.