CURRICULUM VITAE EDUCATION: Donghyun Shin Department of Mechanical and Aerospace Engineering The University of Texas at Arlington, Arlington, TX 76019 Tel: (817) 272-9336; Email: shin@uta.edu; Fax: (817) 272-2952 Ph.D. Mechanical Engineering, Texas A&M University, College Station, TX 2011 M.S. Mechanical Engineering, Ohio University, Athens, OH 2008 B.S. Mechanical Engineering, Hanyang University, Seoul, South Korea 2006 Ph.D. Thesis title: Molten Salt Nanomaterials for Thermal Energy Storage and Concentrated Solar Power Applications, Ph.D. Advisor: Dr. D. Banerjee RESEARCH INTERESTS: Nanomaterial Fabrication / Characterization Nanoscale Energy Transport / Storage Phenomena Energy Storage for Concentrated Solar Power PROFESSIONAL EXPERIENCE: 1. The University of Texas at Arlington, Mechanical and Aerospace Engineering, Arlington, TX Assistant Professor (09/2011 present) 2. Texas A&M University, Mechanical Engineering, College Station, TX Graduate Research Assistant (1/2009 7/2011) Graduate Teaching Assistant (9/2008 5/2009) 3. Stirling Technology Inc., Athens, OH Research Engineer (1/2008 6/2008) 4. Ohio University, Mechanical Engineering, Athens, OH Graduate Research Assistant (1/2007 12/2007) 1
TEACHING EXPERIENCE: Courses taught: Thermodynamics; Thermal Engineering; Fluid Mechanics Assistant Professor of Mechanical & Aerospace Engineering, The University of Texas Arlington MAE 3309 Thermal Engineering : Spring 2012 (64 students enrolled), Spring 2013 (51 students enrolled), Spring 2014 (50 students enrolled). MAE 3310 Thermodynamics I : Fall 2012 (50 students enrolled), Fall 2013 (43 students enrolled). MAE 2314 Fluid Mechanics I : Fall 2013 (35 students enrolled). REFEREED JOURNAL PUBLICATIONS (Total 9): Post-UTA appointment: 1. D. Shin and D. Banerjee, 2014, Specific heat of nanofluids synthesized by dispersing alumina nanoparticles in alkali salt eutectic," International Journal of Heat and Mass Transfer (accepted). 2. H. Tiznobaik and D. Shin, 2013, Experimental validation of enhanced heat capacity of ionic liquid-based nanomaterial, Applied Physics Letters, 102, pp. 173906. 3. B. Dudda and D. Shin, 2013, Effect of nanoparticle dispersion on specific heat capacity of a binary nitrate salt eutectic for concentrated solar power applications, International Journal of Thermal Sciences, 69, pp. 37-42. 4. H. Tiznobaik and D. Shin, 2013, Enhanced specific heat capacity of high-temperature molten salt-based nanofluids, International Journal of Heat and Mass Transfer, 57, pp. 542-548. 5. S. Achaya, D. Shin, et al., 2013, "Report on carbon nano material workshop: challenges and opportunities," Journal of Nanoscale & Microscale Thermophysical Engineering, 17, pp. 10-24. 6. D. Shin and D. Banerjee, 2013, Enhanced specific heat capacity of nanomaterials synthesized by dispersing silica nanoparticles in eutectic mixtures, Journal of Heat Transfer, 135, pp. 032801. 2
Pre-UTA appointment: 7. D. Shin and D. Banerjee, 2011, Enhancement of heat capacity of molten salt eutectics using inorganic nanoparticles for solar thermal energy applications, Developments in Strategic Materials and Computational Design II, Ceramics Engineering and Science Proceedings, 32 (10), pp. 119-126. 8. D. Shin and D. Banerjee, 2011, Enhanced specific heat of SiO2 nanofluid, Journal of Heat Transfer, 133(2), pp. 024501. 9. D. Shin and D. Banerjee, 2011, Enhancement of specific heat capacity of high-temperature silica-nanofluids synthesized in alkali chloride salt eutectics for solar thermal-energy storage applications, International Journal of Heat and Mass Transfer, 54(5-6), pp. 1064-1070. 10. D. Shin and D. Banerjee, 2011, Effects of silica nanoparticles on enhancing eutectic carbonate salt specific heat (work in progress), The International Journal of Structural Changes in Solids, 2(2), pp. 25-31. Science Citations: As of January 5, 2014 Year of Publication 2013 2011 Total: (scholar.google.com) Number of Citations 15 97 112 OTHER PUBLICATIONS (1 book chapter): 1. N. Singh, D. Shin, and D. Banerjee, 2012, Nano-Scale Effects in Multi-Phase Flows and Heat Transfer (Book Chapter), in MEMS and Nanotechnologies: From Science-to-Electronic Systems, to be published by CRC Press (May, 2012), Editor: Kaul, A.B. (Jet Propulsion Lab., currently Program Manager at National Science Foundation/ NSF). REFEREED CONFERENCE PUBLICATIONS (Total 12): Post-UTA appointment: 1. R. Devaradjane and D. Shin, 2012, "Enhanced heat capacity of molten salt nano-materials for concentrated solar power application," Proceedings of ASME 2012 International Mechanical Engineering Congress and Exposition, ASME, November 9-15, Houston, Texas, USA 2. B. Dudda and D. Shin, 2012, "Investigation of molten salt nanomaterial as thermal energy storage in concentrated solar power," Proceedings of ASME 2012 International Mechanical Engineering Congress and Exposition, ASME, November 9-15, Houston, Texas, USA 3
3. H. Tiznobaik and D. Shin, 2012, "Experimental study of nanoengineered molten salts as thermal energy storage in solar power plants," Proceedings of ASME 2012 International Mechanical Engineering Congress and Exposition, ASME, November 9-15, Houston, Texas, USA 4. H. Tiznobaik and D. Shin, 2012, Investigation of molten salt nanomaterials for solar thermal energy storage application," Proceedings of ASME Summer Heat Transfer Conference, ASME, July 8-12, Puerto Rico, USA Pre-UTA appointment: 5. B. Jo, S. Jung, D. Shin, and D. Banerjee, 2011, Anomalous rheological behavior of complex fluids (nanofluids), Proceeding of the ASME 2011 International Mechanical Engineering Congress & Exposition, ASME, November 11-17, Denver, CO, USA 6. D. Shin and D. Banerjee, 2011, Experimental investigation of molten salt nanofluid for solar thermal energy application, Proceeding of the ASME/JSME 2011 8th Thermal Engineering Joint Conference, ASME, March 13-17, Honolulu, Hawaii, USA 7. D. Shin and D. Banerjee, 2010, Enhanced thermal properties of PCM based nanofluid for solar thermal energy storage, Proceedings of 2010 ASME 4th International Conference on Energy Sustainability, ASME, May 17-22, Phoenix, Arizona. 8. H. Kwak, D. Shin, and D. Banerjee, 2010, Enhanced sensible heat capacity of molten salt and conventional heat transfer fluid based nanofluid for solar thermal energy storage application, Proceedings of 2010 ASME 4th International Conference on Energy Sustainability, ASME, May 17-22, Phoenix, Arizona. 9. D. Shin, B. Jo, H. Kwak, and D. Banerjee, 2010, Investigation of high temperature nanofluids for solar thermal power conversion and storage applications, Proceedings of International Heat Transfer Conference, ASME, August 8-13, Washington D.C., USA. 10. D. Shin and D. Banerjee, 2010, Enhanced specific heat capacity of molten salt-metal oxide nanofluid as heat transfer fluid for solar thermal applications, Proceedings of 2010 SAE Power Systems Conference, SAE International, November 2-4, Ft. Worth, Texas, USA. 11. S. Jung, B. Jo, D. Shin, D Banerjee, 2010, Experimental validation of a simple analytical model for specific heat capacity of aqueous nanofluids, Proceedings of 2010 SAE Power Systems Conference, SAE International, November 2-4, Ft. Worth, Texas, USA. 12. D. Shin and D. Banerjee, 2009, Investigation of nanofluids for solar thermal storage application, Proceedings of 2009 ASME 3rd International Conference on Energy Sustainability, ASME, July 19-23, San Francisco, CA. 4
NON-REFEREED PUBLICATIONS AND PRESENTATIONS (Total 5): Post-UTA appointment: 1. D. Shin, 2011, Molten salt nanomaterials for thermal energy storage, National Renewable Energy Laboratory, November 15, 2011, Golden, CO 2. D. Shin, 2011, Molten salt nanomaterials for heat transfer fluid in energy systems, Carbon nano materials and applications workshop, November 1, 2011, Rapid City, SD 3. D. Shin, 2011, Enhanced thermophysical properties of nanomaterials, Carbon nano materials and applications workshop, November 1, 2011, Rapid City, SD Pre-UTA appointment: 4. D. Shin, 2011, Investigation of high temperature nanofluids for solar thermal power conversion and storage applications, Young Engineers and Scientists Symposium, January 11, College Station, TX 5. D. Shin and D. Banerjee, 2011, Enhancement of heat capacity of molten salt eutectics using inorganic nanoparticles for solar thermal energy applications, Proceedings of 35th International Conference and Exposition on Advanced Ceramics and Composites, The American Ceramic Society, January 23-28, Daytona Beach, Florida, USA GRADUATE STUDENT RESEARCH & ADVISING Doctorate (in progress): Total: 2 H. Tiznobaik (expected Fall, 2014); J. Seo (expected Spring, 2016) Master (graduated): Total: 2 Bharath Dudda (May, 2013): Industry (Director and Technical head at LANASOL), Thesis Title: Effect of Nanoparticle Dispersions in a Binary Nitrate Salt Eutectic as Thermal Energy Storage Applications in Concentrated Solar Power. R. Devaradjane (December, 2013): Industry (Windham Manufacturing Co.), Thesis Title: Utilization of Molten Nitrate Salt Nanomaterials for Heat Capacity Enhancement in Solar Power Applications. Master (in progress): Total: 1 V. Pawar (expected Fall, 2014; woman student); S. Sambasivam (expected Spring, 2015); Sumeet Changla (expected Spring, 2016) 5
PROFESSIONAL ACTIVITIES (SERVICE): National ASME: Member, ASME (2011 present) Member, ASME K-6 Committee (2011 present) Co-Chair in ASME-IMECE 2012 Co-Chair in ASME-Summer Heat Transfer Conference 2013 Member, ASME K-13 Committee (2011 present) KSEA: Member, KSEA (2011 present) Proposal Reviewer DOE-NEUP (2013); Deutsche Forschungsgemeinschaft (German Research Foundation, 2014) Journal Reviewer Journal of Thermophysics and Heat Transfer Chemical Engineering Science Journal of Heat Transfer International Journal of Heat and Mass Transfer International Journal of Thermal Sciences Journal of Nanotechnology in Engineering and Medicine Conference Proceedings Reviewer ASME Summer Heat transfer Conference 2011 ASME-IMECE 2011~2012 Local MECOGS committee, MAE UTA (Fall 2011 present), Thermal science and energy discipline committee, MAE UTA (Fall 2011 present), Served as member of MS and PhD committees (Spring 2012 present) Brown bag MAE lunch series (Fall 2013) 6