Patents

6. Hong, J., He, Z. & He, R. (2021). Multi-spectral digital inline holography for biological particle classification. U.S. Patent Application No. 63/201,477.

5. Hong, J. & Gao, L. (2021). Control wind turbine based on wind veer. U.S. Patent Application No. 63/199,871.

 

4. Hong, J. & Gao, L. (2020). Systematic control framework for wind turbines in cold climate regions. U.S. Patent Application No. 63/052,212.

3. Hong, J., Shao, S. & Mallery, K. (2021). Machine learning holography for particle field imaging. U.S. Patent Application No. 17/248,584.

2. Hong, J. & Kumar, S. (2021). System, device and method for digital holography. U.S. Patent No. 10,895,843. Washington, DC: U.S. Patent and Trademark Office.

1. Hong, J. & Toloui, M. (2019). System and method for digital inline holography. U.S. Patent No. 10,386,384. Washington, DC: U.S. Patent and Trademark Office.

 

Peer-reviewed Journal Articles and Conference Publications

2022

112. Nazari, A., Hong, J., & Taghizadeh-Hesary, F. (2022). Virus transmission from heating, ventilation, and air conditioning (HVAC) systems of urban subways. Physics of Fluids (under revision)

 

111. Albert, C., Liu, L., Haug, J., Wu, H., He, R. & Hong, J. (2022). Real-time multiple-particle tracking in ultrasonic spray pyrolysis. 5th SME North American Manufacturing Conference (under review)

110. Abraham, A. & Hong, J. (2022). Characterization of atmospheric coherent structures and their impact on a utility-scale wind turbine. Flow, 2, E5.

 

109. Kim, J., Kang, P.K., He, S., Shen, L., Kumar, S., Hong, J., & Seo, W. (2022). Pore-Scale Flow Effects on Solute Transport in Turbulent Channel Flows Over Porous Media. Transport in Porous Media.

108. Swenson, L., Gao, L., Hong, J. & Shen, L. (2022). An efficacious model for predicting icing-induced energy loss for wind turbines. Applied Energy, 305, 117809.

107. Gao, L., Dasari, T., & Hong, J. (2022). Wind farm icing loss forecast pertinent to winter extremes. Sustainable Energy Technologies and Assessments, 50, 101872.

 

106. Shao, S., Li, J., Yoon, K., & Hong, J. (2022). Probing into gas leakage dynamics of ventilated supercavity through bubbly wake measurement. Ocean Engineering, 245, 110457.

2021

105. Li, J., Abraham, A., Guala, M., & Hong, J. (2021). Evidence of preferential sweeping of snow particle settling. Journal of Fluid Mechanics, 928, A8. doi:10.1017/jfm.2021.816

 

104. Li, C., Kumar, S., He, Z., Hogan, C.J., Fredericks, S.A. & Hong, J. (2021). Effect of oil inclusion on spray droplet size and velocity distribution. International Journal of Multiphase Flows, 14, 103813.

103. Gao, L. & Hong, J. (2021). Data-driven yaw misalignment correction for utility-scale wind turbines. Journal of Renewable and Sustainable Energy, 13, 063302

102. Abraham, A., Martínez-Tossas, L. & Hong, J. (2021). Mechanisms of dynamic near-wake modulation of a utility-scale wind turbine. Journal of Fluid Mechanics, 926, A29.

101. Ou, Q., Placucci, R., Danielson, J., Anderson, G., Olin, P., Jardine, P., Madden, J., Yuan, Q., Grafe, T.H., Shao, S., Hong, J., & Pui, D. (2021). Characterization and mitigation of aerosols and splatters from ultrasonic scalers. The Journal of the American Dental Association, 152(12), 981-990.

100. Kumar, S., Huang, X., Yang, X., & Hong, J. (2021). Meandering motions within the viscous sublayer. Theoretical and Applied Mechanics Letters, 11, 100293. (Cover Article)

99. Mallery, K., Canelon, D., Hong, J. & Papanikolopoulos, N. (2021). Design and experiments with a robot-driven underwater holographic microscope for low-cost in situ particle measurements. Journal of Intelligent & Robotic Systems, 102, 32

98. He, R., Liu, W., Elson, J., Vogt, R., Maranville, C., & Hong, J. (2021). Airborne transmission of COVID-19 and mitigation using box fan air cleaners in a poorly ventilated classroom. Physics of Fluids 33, 057107. (Featured Article)

97. Yang, X., Hong, J., Lee, M., & Huang, X. (2021). Grid resolution requirement for resolving rare wall-shear stress events in direct numerical simulations. Physical Review Fluids 6, 054603. (Editor's suggestions)

96. Abraham, A., He, R., Shao, S., Kumar, S., Wang, C., Guo, B., Trifonov, M., Willis, M., & Hong, J. (2020). Risk assessment of airborne transmission of COVID-19 during orchestra performance. Journal of Aerosol Science, 157, 105797.

95. He, Z., Shao, S., Li, J., Kumar, S., Sokoloff, J.B. & Hong, J. (2021). Droplet evaporation residue indicating SARS-CoV-2 survivability on surfaces. Physics of Fluids, 33, 013309.

0.5

94. Liu, H., He, S., Shen, L., & Hong, J. (2021). Simulation-Based Study of COVID-19 Outbreaks Associated with Air-Conditioning in a Restaurant. Physics of Fluids, 33, 023301. (Featured Article)

 

93. Guo, B., Nyman, L., Nayak, A., Milmore, D., McFarland, M., Twardowski, M., Sullivan, J., Yu, J., & Hong, J. (2021). Automated plankton classification from holographic imagery with deep convolutional neural networks. Limnology and Oceanography Methods 19, 21–36.

 

92. Gao, L. & Hong, J. (2021). Effect of wind veer on wind turbine power generation. Physics of Fluids 33, 015101.

 

91. Abraham, A., & Hong, J. (2021). Operational-dependent wind turbine wake impact on surface momentum flux revealed by snow-powered flow imaging. Renewable and Sustainable Energy Review, 144, 111021.

0.5

90. Li, C., Kaeul, L., Berk, T., Abraham, A., Guala, M., Coletti, F., & Hong, J. (2021). Clustering and settling of snow particles under atmospheric turbulence. Journal of Fluid Mechanics, 912, A49. doi:10.1017/jfm.2020.1153.

 

89. Gao, L. & Hong, J. (2021). Wind turbine performance in natural icing environments: A field characterization. Cold Regions Science and Technology, 181. 103193.

0.5

88. He, R., Gao, L., Trifonov, M., & Hong, J. (2021). Aerosol generation from different wind instruments. Journal of Aerosol Science, 151, 105669.

 

87. Shao, S., Zhou, D., He, R., Li, J., Zou, S., Mallery, K., Kumar, S., Yang, S. & Hong, J. (2021). Risk assessment of airborne transmission of COVID-19 by asymptomatic individuals under different practical settings. Journal of Aerosol Science, 151, 105661.

 

86. Li, C., Panday, R., Gao, X., Hong, J. & Rogers, W. (2021). Measuring particle dynamics in fluidized bed using digital in-line holography. Chemical Engineering Journal, 405, 126824.

 

2020

85. Mallery, K., Shao, S. & Hong, J. (2020). Dense particle tracking using a learned predictive model. Experiments in Fluids, 61, 233-246.

 

84. Li, J., Shao, S. & Hong, J. (2020). Machine learning shadowgraph for particle size and shape characterization. Measurement Science & Technology, 32, 015406.

 

83. Fredericks, S, Magidow, L., He, Z., Hogan, J. & Hong, J. (2020). Quantification of drifting droplets in sprays experiencing crosswind shear via digital image analysis techniques. American Society of Agricultural and Biological Engineers Annual International Meeting, Omaha, Nebraska.

 

82. Hong, J., Shao, S., Mallery, K., Kumar, S., He, R. & Li, J.(2020). Deep learning holography for high-resolution low-cost diagnostics of 3D flows and particle dynamics. 20th International Symposium on Applications of Laser Techniques to Fluid Mechanics, Lisbon, Portugal.

 

81. Abraham, A. & Hong, J. (2020). Super-large-scale flow visualization using natural snowfall for the study of utility-scale wind turbine flows. 20th International Symposium on Applications of Laser Techniques to Fluid Mechanics, Lisbon, Portugal.

 

80. Abraham, A., Martínez-Tossas, L. & Hong, J. (2020). The effect of dynamic near-wake modulation on utility-scale wind turbine wake development. Toque, Delft, The Netherlands.

 

79. Kumar, S., He, Z., Hogan, C.J., Fredericks, S.A. & Hong, J. (2020). Evaluation of laser diffraction-based particle size measurements using digital inline holography. Measurement Science and Technology, 31, 125201.

 

78. Shao, S., Mallery, K. & Hong, J. (2020). Machine learning holography for measuring 3D particle distribution. Chemical Engineering Science, 225, 115830.

 

77. Gao, L., Yang, S., Abraham, A. & Hong, J. (2020). Effects of turbulent inflow on the structural response of utility-scale turbine blades. Journal of Wind Engineering and Industrial Aerodynamics, 199, 104137.

 

76. Yoon, K., Qin, S., Shao, S. & Hong, J. (2020). Internal flows of ventilated partial cavitation. Experiments in Fluids, 61, 100-115.

 

75. Zhou, Z., Kumar, S., Mallery, K., Jiang, W. & Hong, J. (2020). Holographic astigmatic particle tracking velocimetry. Measurement Science and Technology, 31, 065202.

 

74. Shao, S., Balakrishna, A., Yoon, K., Li, J., Liu, Y. & Hong, J. (2020). Effect of mounting strut and cavitator shape on the ventilation demand for ventilated supercavitation. Experimental Thermal and Fluid Science, 118, 110173.

 

73. Hong, J & Abraham, A. (2020). Snow-powered research on utility-scale wind turbine flows. Acta Mechanica Sinica, 36(2), 339–355. (Cover Article)

 

72. Huang, R., Shao, S., Luo, X. & Hong, J. (2020). Numerical investigation of ventilated supercavitation under unsteady flow conditions. Journal of Fluids Engineering, 142, 061403.

 

71. You, J., Mallery, K., Mashek, D., Sanders, M., Hondzo, M. & Hong, J. (2020). Microalgal swimming signatures as indicators neutral lipids production across growth phases. Biotechnology and Bioengineering, 117(4), 970-980. (Cover Article)

70. Shao, S., Mallery, K., Kumar, S. & Hong, J. (2020). Machine learning holography of 3D particle field imaging. Optics Express, 28(3), 2987-2999.

 

69. Gao, L., Yang, S., Abraham, A. & Hong, J. (2020). Effects of inflow turbulence on the structural response of wind turbine blades. Journal of Wind Engineering and Industrial Aerodynamics, 199, 104137.

 

68. Li, C., Abraham, A., Li, B., & Hong, J. (2020). Incoming flow measurements of a utility-scale wind turbine using super-large-scale particle image velocimetry. Journal of Wind Engineering and Industrial Aerodynamics, 197, 104074.

 

67. Abraham, A., & Hong, J. (2020). Dynamic wake modulation induced by utility-scale wind turbine operation. Applied Energy, 257, 114003.

 

66. Abraham, A., Dasari, T. & Hong, J. (2020). Investigation of the near-wake behavior of a utility-scale wind turbine. Journal of Physics: Conference Series, 1452, 012067.

 

2019

65. Kumar, S., Li, C., Christen, C.E., Hogan, C.J., Fredericks, S.A. & Hong, J. (2019). Automated droplet size distribution measurements using digital inline holography. Journal of Aerosol Science, 137, 105442.

 

64. Abraham, A., Dasari, T. & Hong, J. (2019). Effect of turbine nacelle and tower on the near wake of a utility-scale wind turbine. Journal of Wind Engineering and Industrial Aerodynamics, 193, 103981.

 

63. Shao, S. & Hong, J. (2019). A hybrid image processing method for measuring 3D bubble distribution using digital inline holography. Chemical Engineering Science, 207(2), 929-941.

 

62. Mallery, K. & Hong, J. (2019). Regularized inverse holographic volume reconstruction for 3D particle tracking. Optics Express, 27(13), 18069-18084.

 

61. Kumar, S., Kozarek, J., Hornbach, D., Hondzo, M. & Hong, J. (2019). Experimental investigation of turbulent flow over live mussels. Environmental Fluid Mechanics.

 

60. Qin, S., Wu, Y., Wu, D., & Hong, J. (2019). Experimental investigation of ventilated partial cavitation. International Journal of Multiphase Flows, 113, 153-164.

 

59. Wu, Y., Liu, Y., Shao, S. & Hong, J. (2019). On the internal flows over a ventilated supercavity. Journal of Fluid Mechanics, 863, 1135-1165.

 

58. Dasari, T., Wu, Y., Liu, Y. & Hong, J. (2019). Near-wake behavior of a utility-scale wind turbine. Journal of Fluid Mechanics, 859, 204-246.

 

57. Toloui, M., Abraham, A. & Hong, J. (2019). Experimental investigation of turbulent flow over surfaces of rigid and flexible roughness. Experimental Thermal and Fluid Sciences, 101, 263-275. 

2018

56. Heisel, M., Dasari, T., Liu, Y., Hong, J., Coletti, F. & Guala, M. (2018). The spatial structure of the logarithmic region in very-high-Reynolds-number rough wall turbulent boundary layers. Journal of Fluid Mechanics, 857, 704-747.

 

55. Shao, S., Wu, Y., Haynes, J., Arndt, R., & Hong, J. (2018). Investigation into the behaviors of ventilated supercavities in unsteady flow. Physics of Fluids, 30, 052102.

 

54. Kumar, S. & Hong, J. (2018). Digital Fresnel reflection holography for high-resolution 3D near-wall flow measurement. Optics Express, 26(10), 12779-12789. 

 

53. Heisel, M., Hong, J. & Guala, M. (2018). The spectral signature of wind turbine wake meandering: A wind tunnel and field‐scale study. Wind Energy 21, 715-731. 

 

52. Jiang, Y., Shao, S. & Hong, J. (2018). Experimental investigation of ventilated supercavitation with gas jet cavitator. Physics of Fluids, 30, 012013. (Editor's Pick)

 

51. Heisel, M., Liu, Y., Dasari, T., Petersen, A., Hong, J., Coletti, F. & Guala, M. (2018, July). Characterizing turbulent structures in the atmospheric boundary layer with super-large-scale particle image velocimetry. 19th International Symposium on Applications of Laser Techniques to Fluid Mechanics, Lisbon, Portugal.

 

50. Shao, S., Wu, Y., Arndt, R., & Hong, J. (2018). Experimental investigation of ventilated supercavitation under unsteady conditions. In Journal of Physics: Conference Series. IOP Publishing.

 

49. Wu Y., Liu, Y., Shao, S., & Hong, J. (2018). Probe into internal flow structures of a ventilated supercavity. In Journal of Physics: Conference Series. IOP Publishing.

 

48. You, J., Mallery, K., Hong, J. & Hondzo, M. (2018). Temperature effects on growth and buoyancy of Microcystis aeruginosa. Journal of Plankton Research, 40(1), 16- 28.

2017

47. Shao, S., Karn, A., Ahn, B., Arndt, R., Hong, J. (2017). A comparative study of natural and ventilated supercavitation across two closed-wall water tunnel facilities. Experimental Thermal and Fluid Science, 88, 519-529.

 

46. Toloui, M., Mallery, K. & Hong, J. (2017). Improvements on digital inline holographic PTV for 3D wall-bounded turbulent flow measurements. Measurement Science and Technology, 28, 044009.

 

45. Nemes, A., Dasari, T., Hong, J., Guala, M., & Coletti, F. (2017). Snowflakes in the atmospheric surface layer: observation of particle-turbulence dynamics. Journal of Fluid Mechanics, 814, 592-613.

 

44. Kumar, S., Karn, A., Arndt, R., & Hong, J. (2017). Internal Flow Measurements of Drop Impacting a Solid Surface. Experiments in Fluids, 58(3), 1-9. 

 

43. Cao, L., Karn, A., Arndt, R., Wang, Z. & Hong, J. (2017). Numerical investigation of pressure distribution inside ventilated supercavity. ASME Journal of Fluids Engineering, 139(2), 021301-021308. 

 

42. Mallery, K., Canelon-Suarez, D., Hong, J. & Papanikolopoulos, N. (2017) Collaborative robotics with underwater digital in-line holographic microscope for In situ particle measurements. IEEE International Conference on Intelligent Robots and Systems, Vancouver, BC, Canada.

 

41. Nemes, A., Dasari, T., Guala, M., Hong, J., & Coletti, F. Lagrangian trajectories and settling velocities of snowflakes: observation of particle-turbulence dynamics.

10th International Symposium on Turbulence and Shear Flow Phenomena, Chicago, USA.

0.5

40. Ahn, B. K., Jeong, S. W., Kim, J. H., Shao, S., Hong, J., & Arndt, R. E. (2017). An experimental investigation of artificial supercavitation generated by air injection behind disk-shaped cavitators. International Journal of Naval Architecture and Ocean Engineering, 9(2), 227-237. 

2016

39. Kumar, S., Zou, S., Sun, Y. & Hong, J. (2016). 3D holographic observatory for long-term monitoring complex behaviors in drosophila. Scientific Reports, 6.

 

38. Guala, M., & Hong, J. (2016). Particle growth in turbulent flow under dynamically critical Stokes conditions. arxiv.org/abs/1510.04510.

 

37. Yang, X., Hong, J., Barone, M., & Sotiropoulos, F. (2016). Coherent dynamics in the rotor tip shear layer of utility scale wind turbines. Journal of Fluid Mechanics, 804, 90-115.

 

36. Karn, A., Arndt, R., & Hong, J. (2016). Gas entrainment behavior in the formation and collapse of a ventilated supercavity. Experimental Thermal and Fluid Science , 79, 294-300.

 

35. Karn, A., Shao, S., Arndt, R., & Hong, J. (2016). Bubble coalescence and breakup in turbulent bubbly wake of a ventilated hydrofoil. Experimental Thermal and Fluid Science, 70, 397-407.

 

34. Karn, A., Arndt, R., & Hong, J. (2016). An experimental investigation into supercavity closure mechanisms. Journal of Fluid Mechanics, 789, 259-284. (Cover of JFM)

 

33. Karn, A., Huang, R., Shao, S., Arndt, R.E.A., & Hong, J. (2016). Probing into physics of ventilation demand for supercavitating underwater vehicles. 31st Symposium on Naval Hydrodynamics, Monterey, CA, USA.

 

32. Ahn, B.-K., Jeong, S.-W., Kim, J.-H., Shao, S., Karn, A., Hong, J. & Arndt, R.E.A. (2016). Experimental investigation of artificial supercavitation. 31st Symposium on Naval Hydrodynamics, Monterey, CA, USA.

 

31. Karn, A., Gulliver, J. S., Monson, G. M., Ellis, C., Arndt, R. E. A., & Hong, J. (2016, May). Gas transfer in a bubbly wake flow. In IOP Conference Series: Earth and Environmental Science (Vol. 35, No. 1, p. 012020). IOP Publishing.

 

30. Yang, X., Hong, J., Barone, M., & Sotiropoulos, F. (2016). Tip vortex structure in the near wake of a utilityscale wind turbine. Making Toque 2016.

2015

29. Toloui, M. & Hong, J. (2015). High fidelity digital inline holographic method for 3D flow measurements. Optics Express, 23(21), 27159-27173.

 

28. Karn, A., Arndt, R., & Hong, J. (2015). Dependence of Supercavity closure upon flow unsteadiness. Experimental Thermal and Fluid Science, 68, 493-498.

 

27. Karn, A., Ellis, C., Milliren, C. Hong, J., Scott, D., Arndt, R., & Gulliver, J. (2015). Bubble size characteristics in ventilated hydrofoils with two aeration configurations. International Journal of Fluid Machinery and Systems, 8(2), 73-83.

 

26. Toloui, M., Chamorro, L.P., & Hong, J. (2015). Detection of tip-vortex signatures behind a full-scale wind turbine. Journal of Wind Engineering and Industrial Aerodynamics, 143, 105-112.

25. Karn, A., Monson, G., Ellis, C., Hong, J., Arndt, R., & Gulliver, J. (2015). Mass transfer studies across ventilated hydrofoils: A step towards hydroturbine aeration. International Journal of Heat and Mass Transfer, 87, 512-520.

0.5

24. Karn, A., Ellis, C., Hong, J.,& Arndt, R. (2015). Investigation into the turbulent bubbly wake of a ventilated hydrofoil: moving towards improved turbine aeration techniques. Experimental Thermal and Fluid Science, 64, 186-195.

 

23. Chamorro, L. P., Hong, J., & Gangodagamage, C. (2015). On the scale-to-scale coupling between a full-scale wind turbine and turbulence. Journal of Turbulence, 16(7), 617-632.

 

22. Karn, A., Ellis, C., Arndt, R.,& Hong, J. (2015). An integrative image measurement technique for dense bubbly flows with a wide size distribution. Chemical Engineering Science, 122, 240-249.

 

21. Toloui, M., Mallery, K. & Hong, J. (2015). Improvements on Digital Inline Holographic PIV for 3D Wall-bounded Turbulent Flow Measurements, 11th International Symposium on Particle Image Velocimetry, Santa Barbara, USA.

 

20. Toloui, M., Lai, W., Troolin, D., & Hong, J. (2015). 3D Turbulent Flow Measurements Combining V3V and Digital Inline Holographic PIV, 11th International Symposium on Particle Image Velocimetry, Santa Barbara, USA.

 

19. Karn, A., De, R., Arndt, R., & Hong, J. (2015). Closure mechanisms of ventilated supercavities under steady and unsteady flows. In Journal of Physics: Conference Series. IOP Publishing.

 

18. Karn, A., Monson, G., Ellis, C., Hong, J., Arndt, R., & Gulliver, J. (2015). Oxygen transfer across ventilated hydrofoils. The 7th International Symposium on Gas Transfer at Water Surfaces, Seattle, WA, USA.

2014

17. Hong, J., Toloui, M., Chamorro, L. P., Guala, M., Howard, K., Riley, S., ... & Sotiropoulos, F. (2014). Natural snowfall reveals large-scale flow structures in the wake of a 2.5-MW wind turbine. Nature Communications, 5. (Highlight of Nature Communication)

 

16. Toloui, M., Riley, S., Hong, J., Howard, K., Chamorro, L. P., Guala, M., & Tucker, J. (2014). Measurement of atmospheric boundary layer based on super-large-scale particle image velocimetry using natural snowfall. Experiments in Fluids, 55(5), 1-14.

 

15. Hong, J., Guala, M., Chamorro, L. P., & Sotiropoulos, F. (2014, June). Probing wind-turbine/atmosphere interactions at utility scale: Novel insights from the EOLOS wind energy research station. In Journal of Physics: Conference Series (Vol. 524, No. 1, pp. 12001-12010). IOP Publishing.

 

14. Ellis, C., Karn, A., Hong, J., Lee, S., Kawakami, E., Scott, D., Gulliver, J. & Arndt, R. (2014). Investigation into the turbulent bubbly wake of a ventilated hydrofoil: moving towards improved turbine aeration techniques. In Proceedings of 27th IAHR symposium. International Association for Hydro-environment Engineering and Research.

 

13. Tester, P.A., Davenport, E.D., Waggett, R.J, Hong, J., Talapatra, S., Katz, J., & Place, A.R. (2014). Differential effects of algal toxins on grazing by the copepod Acartia tonsa. In Proceedings of the 15th International Conference on Harmful Algae, (Eds.) H.-J. Kim et al. International Society for the Study of Harmful Algae and Intergovernmental Oceanographic Commission of UNESCO.

Before 2013

12. Talapatra, S., Hong, J., McFarland, M., Nayak, A. R., Zhang, C., Katz, J., ... & Donaghay, P. (2013). Characterization of biophysical interactions in the water column using in situ digital holography. Mar. Ecol. Prog. Ser, 473, 29-51.

 

11. Hong, J., Katz, J., Meneveau, C., & Schultz, M. P. (2012). Coherent structures and associated subgrid-scale energy transfer in a rough-wall turbulent channel flow. Journal of Fluid Mechanics, 712, 92-128.

 

10. Hong, J., Talapatra, S., Katz, J., Tester, P. A., Waggett, R. J., & Place, A. R. (2012). Algal toxins alter copepod feeding behavior. PloS one, 7(5), e36845.

0.5

9. Hong, J., Katz, J., & Schultz, M. P. (2011). Near-wall turbulence statistics and flow structures over three-dimensional roughness in a turbulent channel flow. Journal of Fluid Mechanics, 667, 1-37.

 

8. Sullivan, J., Katz, J., Talapatra, S., Twardowski, M., Hong, J., & Donaghay, P. (2011). Using in-situ holographic microscopy for ocean particle characterization, Oceans, IEEE meeting, Spain.

7. Hong, J., Katz, J., Talapatra, S., & Schultz, M. (2011). The inner part of rough wall turbulent channel flow, 49 the AIAA Aerospace Sciences Meeting, Orlando, FL.

 

6. Hong, J., Miorini, R., Katz, J., & Schultz, M. (2011). Investigation of Taylor's hypothesis using time-resolved PIV data, 9th International Symposium on Particle Image Velocimetry, Kobe, Japan.

5. Hong, J., Katz, J., & Schultz, M. P. (2010, January). Scale-Dependent Energy Fluxes in a Rough-Wall Turbulent Channel Flow. In ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting collocated with 8th International Conference on Nanochannels, Microchannels, and Minichannels (pp. 2095-2105). American Society of Mechanical Engineers.  (Robert T. Knapp Award paper)

 

4. Hong, J., Katz, J., & Schultz, M. (2009). High resolution PIV measurement near a rough wall in an optically index-matched facility, 8th International Symposium on Particle Image Velocimetry, Melbourne, Australia.

 

3. Talapatra, S., Hong, J., & Katz, J. (2009). Digital microscopic holography to measure flow through rough walls, 8th International Symposium on Particle Image Velocimetry, Melbourne, Australia.

 

2. Hong, J., Katz, J., & Schultz, M. (2008, January). Near-wall stereo PIV investigation of the turbulent channel flow over rough-walls. In ASME 2008 Fluids Engineering Division Summer Meeting collocated with the Heat Transfer, Energy Sustainability, and 3rd Energy Nanotechnology Conferences (pp. 683-690). American Society of Mechanical Engineers.

1. Talapatra, S., Hong, J., Sheng, J., Waggett, R., Tester, P., & Katz, J. (2008). A study of grazing behavior of copepods using digital holographic cinematography, Proceedings of ASME 2008 Fluids Engineering Conference, Jacksonville, FL, USA.