Ӱ

Hyunjae Park
Dr. Hyunjae ParkӰ

Haggerty Hall, 209

MilwaukeeWI53201United States of America
(414) 288-6716TSEAL
Curriculum Vitae

Research Professor

Mechanical Engineering

Professional Preparation

Ph.D., 1992, Mechanical Engineering, University of California at Los Angeles 
M.S., 1983, Mechanical Engineering, Yonsei University, Korea 
B.S., 1981, Mechanical Engineering, Han Yang University, Korea

Research Interests

  • Various heat exchanging energy conversion equipment performance modeling (design and analysis)
  • Computational fluid dynamics (CFD) applications to energy conversion components and systems
  • Optimization of energy conversion equipment and systems
  • Interdisciplinary fluid flow and heat transfer problem analysis

Publications

[1]

Park, H., Engineering Computing with MATLAB, 7thth Ed., McGraw-Hill Companies, Inc., ISBN: 978-1-265- 23539-0 (2022).

[2]

Park, H., “Fostering and Establishing an Engineering Entrepreneurial Mindset through Freshman Engineering Discovery Courses Integrated with an Entrepreneurially Minded Learning (EML) Pedagogic Approach,” Research & Information Center for Innovative Engineering Education (RICE) Issue Brief202006, Korea (2020).

[3]

Park, H. and Bowman, Engineering Graphics, Design and Modeling with SolidWorks 2020-2021, 1st Ed., McGraw- Hill Companies, Inc., ISBN: 978-1-264-38647-5 (2020).

[4]

Park, H., “Value Creation Practice Through Open-Ended Freshman Engineering Problem-Solving and Design Challenge Activities with Entrepreneurial Mindset,” ASEE 12th First Year Engineering Experience (FYEE) Conference, July 26-28, Michigan State University, MI (2020).

[5]

Park, H., “Assessment Analysis Results of How Freshman Engineering Students Build an Entrepreneurial Mindset through Freshman Engineering Discovery Courses,” ASEE 11th First Year Engineering Experience (FYEE) Conference, Session M3A, July 28-30, University Park, PA (2019).

[6]

Park, H., “Engaging Freshman Engineering Students in the Entrepreneurial Mindset through Disruptive Technology Design Challenge Activity,” ASEE 10th First Year Engineering Experience (FYEE) Conference, ASEE Paper ID #24457, July 25-27, Glassboro, NJ (2018).

[7]

Park, H., Engineering Computing with MATLAB, 6thth Ed., McGraw-Hill Companies, Inc., ISBN: 978-1-265- 69423-7 (2020).

  1. 5th Ed., ISBN: 978-1-260-40433-3 (2018) 4th Ed., ISBN: 978-1-260-09733-7 (2017)
  2. 3rd Ed., ISBN: 978-1-259-90877-4 (2016) 2nd Ed., ISBN: 978-1-259-20929-1 (2014)
  3. 1st Ed., ISBN: 0-07-763938-3 (2012)

[8]

Park, H., Bowman, A. and Kim K., Engineering Graphics, Design and Modeling with UGS NX 12.0, 8th Ed., McGraw-Hill Companies, Inc., ISBN: 978-1-260-58198-0 (2018).

  1. 7th Ed., ISBN: 978-1-259-67264-4 (2016) 6th Ed., ISBN: 978-1-259-33643-0 (2014)
  2. 5th Ed., ISBN: 0-07-353143-X (2013) 4th Ed., ISBN: 0-07-340900-6 (2012)
  3. 3rd Ed., ISBN: 0-07-804349-2 (2011) 2nd Ed., ISBN: 0-07-804227-5 (2010)
  4. 1st Ed., ISBN: 0-07-804094-9 (2009)

[9]

Park, H., “Fostering and Establishing an Engineering Entrepreneurial Mindset through Freshman Engineering Discovery Courses Integrated with an Entrepreneurially Minded Learning (EML) Pedagogic Approach,” ASEE 9th First Year Engineering Experience (FYEE) Conference, ASEE Paper ID #20942, August 6-8, Daytona Beach, FL (2017).

[10]

Park, H. and Kim, K., “Implementation of an Entrepreneurially Minded Learning (EML) in Freshman Engineering Discovery Courses and Its Primary Outcomes,” 2016 World Engineering Education Forum (WEEF) and Global
Engineering Dean’s Council (GEDC), November 7-10, Seoul, Korea (2016).

[11]

Park, H., “Fostering an Engineering Entrepreneurial Mindset through the Engineering Problem-Solving Module in the Freshman Engineering Discovery Course,” ASEE 8th First Year Engineering Experience (FYEE) Conference, Session M1C-1, July 31-August 2, Columbus, OH (2016).

[12]

Park, H. and Perez, C., “Math-Proficiency Program for New Engineering Students,” ASEE 8th First Year Engineering Experience (FYEE) Conference, Session T3C, July 31-August 2, Columbus, OH (2016).

[13]

Park, H. and Kim, K., “Development of Freshman Engineering Discovery Courses Integrated with Entrepreneurially Minded Learning (EML),” 2015 World Engineering Education Forum (WEEF) and International Conference on Interactive Collaborative Learning (ICL), September 20-24, Florence, Italy (2015).

[14]

Park, H., “Building an Engineering Entrepreneurial Mindset through Freshman Engineering Design Challenges,”
ASEE 7th First Year Engineering Experience (FYEE) Conference, Session T1B, August 3-4, Roanoke, VA (2015).

[15]

Park, H., “Freshman Engineering Discovery Courses at Ӱ College of Engineering,” ASEE 6th First Year Engineering Experience (FYEE) Conference, Session F1A, College Station, TX (2014).

[16]

Cariapa, V., Park, H. and Cheng. C., “Reliability analysis of mass finishing processes,” Transactions of the NAMRI/SME, Volume 38 (2010).

[17]

Craig, K. and Park, H., “Multidisciplinary freshman engineering program,” IEEE Conference Transforming Engineering Education: Creating Interdisciplinary Skills for Complex Global Environments, Ireland, March (2010).

[18]

Cariapa, V., Park, H., Kim, J., Cheng, C., and Evaristo, A.E.G., “Effect of Abrasive content in media wear and material removal rate in centrifugal disk mass finishing machine,” Transactions of the NAMRC, v36, 341-348 (2008).

[19]

Cariapa, V., Park, H., Kim, J., Cheng, C., and Evaristo, A.E.G., “Development of a metal removal model using spherical ceramic media in a centrifugal disk mass finishing machine,” International Journal of Advanced Manufacturing Technology, 39: 92-106 (2008).

[20]

Heat Transfer Calculations by Myer Kutz, McGraw- Hill Companies, Inc., ISBN: 0-07-141041-4: Chapter 41, Entitled as “Thermal Analysis of Convectively Cooled Heat-Dissipating Components on Printed Circuit Boards” prepared by Hyunjae Park (2006).

[21]

Loughrin, C., Park, H. and Weber, R., “Development of Analysis Algorithm and Computational Methodology for the Evaluation of Non-uniform Energy Conversion System Performance (Part I: Component Analysis Module),” ASME IMECE2006-14960(2006).

[22]

Loughrin, C., Park, H. and Weber, R., “Development of Analysis Algorithm and Computational Methodology for the Evaluation of Non-uniform Energy Conversion System Performance (Part II: System Connectivity),” ASME IMECE2006-14965(2006).

[23]

Shin, K, Park, H., Kim, J. and Kim, K., “Mathematical and Experimental Investigation of Thermal Response of an Automobile Passenger with a Ventilated Seat,” ASME IMECE2006-14770(2006).

[24]

Bowman, A. and Park, H., “CFD Investigation of Developing and Redeveloping Laminar Flow and Heat Transfer Characteristics in Coiled Tube Systems for Constant Wall Temperature Heating and Cooling (Part I: Toroidal and Helical Configurations),” ASME IMECE2006-15570(2006).

[25]

Bowman, A. and Park, H., “CFD Investigation of Developing and Redeveloping Laminar Flow and Heat Transfer
Characteristics in Coiled Tube Systems for Constant Wall Temperature Heating and Cooling (Part II: Spiral Configuration),”ASME IMECE2006-15572(2006).

[26]

Park, H., Bowman, A., Dake, T., Kicinski, K. and Jaeger, D., “Investigation of Thermal Performance Characteristics of a Motorcycle Exhaust-Pipe System,” 9th Joint AIAA/ASME Thermophysics and Heat Transfer Conferences, AIAA-2006-2924(2006).

[27]

Shin, K., Park, H. and Kim, K., “Evaluation of Automobile Passenger Thermal Comfort Response Due to Seat Cooled by Forced Convection Heat Transfer Mode,” 9th Joint AIAA/ASME Thermophysics and Heat Transfer Conferences, AIAA-2006-2923(2006).

[28]

Park, H. and Bowman, A., “Governing Equations Used in Coiled Tube Systems, Part I: Development of Standard/General Forms,9th Joint AIAA/ASME Thermophysics and Heat Transfer Conferences, AIAA-2006-3617 (2006).

[29]

Park, H. and Bowman, A, “Governing Equations Used in Coiled Tube Systems, Part II: Order-of-Magnitude Analysis of Spiral Coil System,” 9th Joint AIAA/ASME Thermophysics and Heat Transfer Conferences, AIAA-2006- 3616(2006).

[30]

Bowman, A. and Park, H., “Investigation and Development of Proposed General Pressure Drop and Heat Transfer Correlations for Laminar Flow in a Toroidal Coiled Tube System,” ASME IMECE 2004-59872(2004).

[31]

Bowman, A. and Park, H., “CFD Study on Laminar Flow Pressure Drop and Heat Transfer Characteristics in Toroidal and Spiral Coil Systems,” ASME IMECE 2004-59879(2004).

[32]

Park, H. and Bowman, A., “Development of Plate-type Heat Exchanger for Exhaust Gas Heat Recovery,” ASME IMECE 2003-42671(2003).

[33]

Bowman, A. and Park, H., “Development of Generalized Correlations for the Pressure Drop and Heat Transfer Applied in Helically Coiled Tube System,” ASME IMECE 2003-42672 (2003).

[34]

Bowman A., Park, H., Hayes, B., Rinehart, M., Raether S. and Farrell M., “Investigation and Development of Condensation Heat Transfer for Straight and Helically Coiled Tubes,” ASME IMECE 2002-32900 (2002).

[35]

Park, H., Bowman A., Stansfield, T., Huibregtse, B and Wilkinson, S., “Effect of Boiler Feedwater Inlet Locations on the Water Circulation Characteristics in a Firetube Boiler with the Non-Symmetrically Arranged Tube Passes 3 and 4,” ASME IMECE 2002-33043(2002).

[36]

Park, H., Nigro, N., Gollhardt N. and Lee, P., “Development and Integration of a Semi-Analytical PCB Thermal Design Technique with an Infrared Thermal Imaging System,” ASME IMECE 2001/ AES-23600(2001).

[37]

Park, H., Bowman, A., Stansfield, T., Huibregtse, B., Wilkinson S. and Ayala, W., “Prediction of Water Circulation Characteristics in a 4-Pass Firetube Boiler with the Non-Symmetric Arrangement of Tube Passes 3 and 4,” ASME IMECE 2001/ AES-23603(2001).

[38]

Hayes, B., Park, H., Raether, S. and Farrell, M., “Investigation of Turbulent Forced Convection Heat Transfer and Pressure Drop Correlations for a Helically Coiled Tube,” 35th National Heat Transfer Conference, NHTC2001- 20210(2001).

[39]

Park, H., Richardson, D., Stansfield, T., Tompkins G. and Molvie, P., “Investigation and Evaluation of Steam Hammer Occurring During Boiler Blowdown Process,” ASME AES-Vol. 39, p. 523 (1999).

[40]

Park, H., Nigro, N., Elkouh, A., Gollhardt, N. and Lee, P., “Estimation of Effective Radiation Heat Loss from Heaters on Two Parallel PCBs and Its Effect on Heater Wall Temperature,” ASME 99-IMECE/EEP-1(1999).

[41]

Molvie, P., Tompkins, G., Stansfield, T. and Park, H., “Water Column and Level Device Blowdown: A Word of Caution,” National Board Bulletin, Vol. 54, No. 4, p. 3 (1999).

[42]

Park, H., Nigro, N., Elkouh, A., Gollhardt, N. and Lee, N., “Approximate Thermal Analysis of Printed Circuit Boards Cooled By Laminar Natural Convection,” ASME 98-WA/EEP-20(1998).

[43]

Park, H., Nigro, N., Elkouh, A., Gollhardt, N. and Lee, P., “Effect of Design Parameters on Thermal Behavior of Printed Circuit Boards Cooled By Uni-Directional Flow,” ASME 98-WA/EEP-21(1998).

[44]

Park, H., Nigro, N., Elkouh, A., Gollhardt, N. and Lee, P., “Guidelines for Preliminary Thermal Design of Convectively Cooled Printed Circuit Boards,” ASME HTD-Vol. 351, Volume 1, p. 315 (1997).

[45]

Park, H. and Valentino, M., “Parametric Study of A Firetube Boiler Performance,” ASME HTD-Vol. 320 (PID-Vol. 1), p. 29 (1995).

[46]

Park, H., and Valentino, M., "Determination of IFGR Rate and Fuel Energy Consumption Due To Boiler Purging,"
ASME AES-Vol. 35, p. 323 (1995).

[47]

Park, H. and Valentino, M. “Effect of Thermo-Physical Parameters on Firetube Boiler Performance,” Proceedings
of the ECOS' 95 (International Conference of Efficiency, Costs, Optimization, Simulation and Environmental Impact of Energy Systems, Istanbul, Turkey), Vol. 1 (B1-163), p. 321 (1995).

[48]

Park, H. and M. Valentino, “A Model of Heat Transfer and Exergy Consumption in A Firetube Boiler Furnace,” Proceedings of the ECOS' 95 (International Conference of Efficiency, Costs, Optimization, Simulation and Environmental Impact of Energy Systems, Istanbul, Turkey), Vol. 1 (B2-162), p. 353 (1995).

[49]

Park, H., Dhir, V.K., Kastenberg, W.E., “Effect of External Cooling on the Thermal Behavior of A Boiling Water Reactor Vessel Lower Head,Journal of Nuclear Technology, Vol. 108, pp. 288 (1994).

[50]

Paulus, D. Gaggioli, R., Park, H. and Dunbar, W.R., “Development of Personal Computer Software for Energy System Simulation,” ASME AES-Vol. 33, p. 177 (1994).

[51]

Park, H. and Dhir, V.K., “Effect of Outside Cooling on the Thermal Behavior of A PWR Vessel Lower Head,”
Journal of Nuclear Technology, Vol. 100, No. 3, pp. 331 (1992).

[52]

Park, H., Lee, J., Dhir, V.K. and Mal, A., “Thermal Stresses and Creep Rupture Analysis for a PWR Vessel Lower Head During External Flooding,” ANS HTV-Vol. 6, p. 376 (1992).

[53]

Park, H. and Dhir, V.K., “Effect of External Flooding on Retention of Core Material in A BWR Lower Head,” the 27th Proceedings of Nuclear Thermal Hydraulics, p 315 (1991).

[54]

Park, H. and V.K. Dhir, “Steady State Analysis of External Cooling of A PWR Vessel Lower Head,” AIChE Symposium Series, No. 283, Vol. 87, p 1 (1991).

[55]

Kastenberg, W.E., Park, H., et al., “A Framework for the Assessment of Severe Accident Management Strategies,”
the 19th Water Reactor Safety Information Meeting, October 1991.

[56]

Kastenberg, W.E., Park, H., et al., Proceedings of A Workshop on Severe Accident Management for Pressurized Water Reactors (PWR's), Los Angeles, California, July 1991.

[57]

Kastenberg, W.E., Park, H., et al., Proceedings of A Workshop on Severe Accident Management for Boiling Water Reactors (BWR's), Los Angeles, California, July 1991.

[58]

Park, H. and Choi, I.K., “Heat Transfer and Flow Pattern for a Circular Tube Placed in the Injected Flow Between Two Tubes”, Yonsei Engineering Report(1983).


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