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  1. Lee, Jaeseon, and Mahmoud, A.M, “Condensation Heat Transfer of R245fa and low-GWP refrigerants Novec®649 and HFE-7000 in a Horizontal Smooth Tube”, Int. J. Refrigeration, 2012 (in review).
  2. Shah, M. M, Mahmoud, A.M., Lee, J., “General assessment of predictive methods for in-tube condensation heat transfer of refrigerant mixtures”, Int. J. Refrigeration, 2012 (in review).
  3. ​​Lee, Jaeseon, and Mudawar, I, 2009, “Low-Temperature Two-Phase Microchannel Cooling for High-Heat-Flux Thermal Management of Defense Electronics”, IEEE Trans. CPMT, Vol 32 No 2, pp. 453-465.
  4. ​Lee, Jaeseon, and Mudawar, I, 2009, “Experimental Investigation and Theoretical Model for Subcooled Flow Boiling Pressure Drop in Micro-Channel Heat Sinks”, ASME J. Elec. Packaging, , Vol 131, pp.(031008-)1-11.
  5. ​Lee, Jaeseon, and Mudawar, I, 2009, “Critical heat flux for subcooled flow boiling in micro-channel heat sinks”, Int. J. Heat Mass Transfer, 52, pp. 3341-3352.
  6. ​​Lee, Jaeseon, and Mudawar, I, 2008, “Fluid Flow and Heat Transfer Characteristics of Low Temperature Two-Phase Micro-Channel Heat Sinks - Part 1: Experimental Methods and Flow Visualization Results”, Int. J. Heat Mass Transfer, 51, pp. 4315-4326.
  7. Lee, Jaeseon, and Mudawar, I, 2008, “Fluid Flow and Heat Transfer Characteristics of Low Temperature Two-Phase Micro-Channel Heat Sinks - Part 2: Subcooled Boiling Pressure Drop and Heat Transfer”, Int. J. Heat Mass Transfer, 51, pp. 4327-4341.
  8. ​Lee, Jaeseon, and Mudawar, I, 2007, “Assessment of the Effectiveness of Nanofluids for Single-Phase and Two-Phase Heat Transfer in Micro-Channels”, Int. J. Heat Mass Transfer, 50, pp. 452-463.
  9. Lee, Jaeseon, and Mudawar, I, 2006, “Implementation of Micro-Channel Evaporator for High-Heat-Flux Refrigeration Cooling Applications” ASME J. Electronics Packaging, 128, pp. 30-37.​
  10. Lee, Jaeseon and Mudawar, I, 2005, “Two-phase flow in high-heat-flux micro-channel heat sink for refrigeration cooling applications: Part I–pressure drop characteristics”, Int. J. Heat Mass Transfer, 48,  pp. 928-940.
  11. Lee, Jaeseon and Mudawar, I, 2005, “Two-phase flow in high-heat-flux micro-channel heat sink for refrigeration cooling applications: Part II–heat transfer characteristics”, Int. J. Heat Mass Transfer, 48,  pp. 941-955.

Peer Review Journals

Conference Papers

  1. Lee, J., Mahmoud, A.  M., Luo, D., Wang, J., “Characterization of Low Temperature Geothermal ORC System Employing Non-Azeotropic Working Fluid Mixtures”, MCARE 2012 Symposia, Clearwater FL, 2/26 – 3/1, 2012 (Presentation).
  2. Lee, Jaeseon, and Mudawar, I, 2008, “Low-Temperature Two-Phase Micro-Channel Cooling for High-Heat-FluxThermal Management of Defense Electronics,” Proceedings of ITherm 2008: InternationalConference on Thermal, Mechanics and Thermomechanical Phenomena in Electronic Systems,Orlando, FL, May 28-31, 2008, pp. 132-144.​

Intellectual Properties

  1. “High Gliding Fluid Power Generation System with Fluid Component Separation”, Application filed to US PTO, Application # 13/345,096, Jan 6, 2012.
  2. “Composition of zeotropic mixtures having predefined temperature glide”, Application filed to US PTO, Application # 13/396,102, Feb 14, 2012.
  3. “Non-Azeotropic Working Fluid Mixtures for Rankine Cycle Systems”, Application filed to US PTO, Application # 13/345,330, Jan 6, 2012.
  4. “Active Structures for Heat Exchanger”, Application filed to US PTO, Application # 12/832,434, Jul 8, 2010.
  5. “Active Structures for Heat Exchanger”, Application filed to European PO, Application # 11172291.4, Jun 30, 2011.
  6. “Modular Heat Exchanger Assembly”, Application filed to US PTO, Application # 61/287,527, Dec 17, 2009 (Main inventor).
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