Biography

Prof. Jung-Chang Wang

Department of Marine Engineering (D.M.E.)

National Taiwan Ocean University (NTOU), Taiwan

Professor for Green Energy, Two-Phase Flow, Thermal Module, Surface Heat Treatment for Fins

Thermo-Electric NanoFluids, CFD Numerical Method, and LED Lighting


Email: jcwang@ntou.edu.tw


Qualifications

2014-Present Professor, Department of Marine Engineering (M.E.), National Taiwan Ocean University (NTOU)

2011-2014 Associate Professor, Department of Marine Engineering(M.E.), National Taiwan Ocean University (NTOU)

2008-2011 Assistant Professor, Department of Marine Engineering (M.E.), National Taiwan Ocean University (NTOU)

2007 Ph.D. Mechanical Engineering(M.E.), National Taiwan University (NTU)

1997 M.S. Mechanical Engineering, National Cheng Kung University (NCKU)

1995 B.S. Mechanical Engineering(M.E.), National Cheng Kung University (NCKU)


Publications (Selected)

  1. J.-C. Wang*, 2018, Book Title is Heat Pipes: Design, Applications and Technology ( ISBN 978-1-53613-908-2 ), Chapter Title is Various Shaped Heat Pipe Applications and HSHPTM Software, Nova Publisher, Pub. Date: 2018 - September Chapter 6 pp.365-394 (https://www.novapublishers.com/catalog/product_info.php?products_id=62880 ).
  2. J.-C. Wang*, 2017, Book Title is Advances in Nanotechnology. Volume 19 ( ISBN 978-1-53612-415-6 ), Chapter Title is Advances in Nanofluidics Research, Nova Publisher, Pub. Date: 2017 - 3rd Quarter Chapter 6 pp.173-210 (https://www.novapublishers.com/catalog/product_info.php?products_id=62880 ).
  3. J.-C. Wang*, 2014, Book Title is Horizons in Computer Science Research. Volume 9 ( ISBN 978-1-63321-522-1 ), Chapter Title is Computer Aided-Thermal Module Design, Nova Publisher, Pub. Date: 2014 - 3rd Quarter Chapter 11 pp.251-284 (https://www.novapublishers.com/catalog/product_info.php?products_id=50679&osCsid=16ac5de692533f0c38b559642b6cf8a8 ).
  4. Z.-C. Chen, T.-L. Chang, K.-W. Su, H.-S. Lee, and J.-C. Wang*, 2021, Application of self-heating graphene reinforced polyvinyl alcohol nanowires to high-sensitivity humidity detection, Sensors and Actuators B: Chemical, Vol. 327, January, 128934. (SCI) (IF=7.1).
  5. X. Hou, R.-T. Wang, S. Huang, and J.-C. Wang*, 2020, Thermoelectric Generation and Thermophysical Properties of Metal Oxide Nanofluids, Journal of Marine Science and Technology-Taiwan, Vol. 28, No. 4, July/August, online (https://www.airitilibrary.com/Publication/alDetailedMesh?DocID=10232796-201303-PP201303110001-PP201303110001-1-10-0111). (SCI) (IF=0.62).
  6. P.-H. Yen and J.-C. Wang*, 2019, Power Generation and Electric Charge Density with Temperature Effect of Alumina Nanofluids using Dimensional Analysis, Energy Conversion and Management, Vol.186, April, pp.546-555. (SCI) (IF=6.377)
  7. R.-T. Wang and J.-C. Wang*, 2017, Analysis of Thermal Conductivity in HI-LEDs Lighting Materials, Journal of Mechanical Science and Technology, 31(6), June pp.2911-2921. (SCI) (IF=1.128)
  8. R.-T. Wang and J.-C. Wang*, 2017, Intelligent Dimensional and Thermal Performance Analysis of Al2O3 Nanofluid, Energy Conversion and Management, Vol.138, April, pp.686-697. (SCI) (IF=5.589)
  9. R.-T. Wang and J.-C. Wang*, 2016, Analyzing the Structural Designs and Thermal Performance of Nonmetal LED Lighting Devices of LED bulbs, International Journal of Heat and Mass Transfer, Vol. 99, August, pp.750-761. (SCI) (IF=3.458)
  10. R.-T. Wang and J.-C. Wang*, 2016, Alumina Nanofluids as Electrolytes Comparisons to Various Neutral Aqueous Solutions inside Battery, Journal of Mechanics, Vol. 32, No. 3, June, pp.369-379. (SCI) (IF=0.819)
  11. R.-T. Wang and J.-C. Wang*, 2015, Optimization of Heat Flow Analysis for Exceeding Hundred Watts in HI-LEDs Projectors, International Communications in Heat and Mass Transfer, Vol. 67, October, pp.153-162. (SCI) (IF=3.718)
  12. J.-C. Wang*, 2014, L- and U-shaped Heat Pipes Thermal Modules with Twin Fans for Cooling of Electronic System under Variable Heat Source Areas, Heat and Mass Transfer, Vol. 50, issue 11, pp.1487-1498. (SCI) (IF=1.233)
  13. J.-C. Wang*, 2014, Analyzing Thermal Module Developments and Trends in High-Power LED, International Journal of Photoenergy, Vol. 2014, Article ID 120452, May, 11 pages, doi:10.1155/2014/120452. (SCI) (IF=1.277)
  14. J.-C. Wang*, 2014, U- and L-shaped Heat Pipes Heat Sinks for Cooling Electronic Components Employed a Least Square Smoothing Method, Microelectronics Reliability, Vol. 54, Issues 6/7, June, pp.1344-1354. (SCI) (IF=1.371)
  15. J.-C. Wang*, 2013, Thermoelectric Transformation and Illuminative Performance Analysis of a Novel LED-MGVC Device, International Communications in Heat and Mass Transfer, Vol. 48, November, pp.80-85. (SCI) (IF=3.718)
  16. J.-C. Wang*, 2012, 3-D Numerical and Experimental Models for Flat and Embedded Heat Pipes Applied in High-end VGA Card Cooling System, International Communications in Heat and Mass Transfer, Vol. 39, Issue 9, November, pp.1360-1366. (SCI) (IF=3.718)
  17. J.-C. Wang*, 2011, Thermal Investigations on LEDs Vapor Chamber-Based Plates, International Communications in Heat and Mass Transfer, Vol.38, Issue 9, November, pp. 1206-1212. (SCI) (IF=3.718)
  18. J.-C. Wang*, 2011, L-type Heat Pipes Application in Electronic Cooling System, International Journal of Thermal Sciences, Vol.50 , Issue 1, January, pp.97-105. (NSC 98-2221-E019-039) (SCI) (IF=3.615)
  19. J.-C. Wang*, R.-T. Wang, T.-L. Chang, D.-S. Hwang, 2010, Development of 30 Watt High-Power LEDs Vapor Chamber-Based Plate, International Journal of Heat and Mass Transfer, Vol. 53 , Issue 19/20 , September, pp.3900-4001. (SCI) (IF=3.458)
  20. J.-C. Wang*, 2009, Superposition Method to Investigate the Thermal Performance of Heat Sink with Embedded Heat Pipes, International Communications in Heat and Mass Transfer, Vol.36, Issue 7, August, pp. 686-692. (SCI) (IF=3.718)


Profile Details

http://scholars.ntou.edu.tw/cris/rp/rp00294

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