| Name: Title | Program | Term | |
| 1. | L. McCarthy: Hub Design for DWTs | Honors | Spring 2026 |
| 2. | T. E. Valle: Luge Suspension Modeling | Und. Res. | Fall 2025 |
| 3. | D. J. Long: Nucleation Modeling | Und. Res. | Fall 2025 |
| 4. | D. Childs, G. Mamoria: DWT Optimization | Und. Res. | Spring 2025 |
| 5. | S. Barth, C. Austin: Shock Tracking Investigations | Und. Res. | Spring 2025 |
| 6. | T. E. Valle: Luge Suspension Modeling | Und. Res. | Spring 2025 |
| 7. | A. Persaud: Aerodynamic Optimization of a Luge Sled | McNair | Summer 2025 |
| 8. | G. Yeboah: Hub Design for DWTs | McNair | Summer 2025 |
| 9. | D. J. Long: MC Simulations of 2D Nucleation | Und. Res. | Summer 2025 |
| 10. | G. Mamoria: Optimization of Ducted Wind Turbine Hubs | Honors | Fall 2024 |
| 11. | S. Barth, C. Austin: Shock Tracking Investigations | Und. Res. | Fall 2024 |
| 12. | T. Purrenhage: Luge CFD Optimization | Und. Res. | Fall 2024 |
| 13. | T. D. Hanson: SAE Intake Optimization | Und. Res. | Spring 2024 |
| 14. | T. E. Valle: Luge Suspension Modeling | McNair | Summer 2024 |
| 15. | E. Johnson, K. Fenimore: Explicit Unstructured hp Simulations using Kokkos | REU | Summer 2024 |
| 16. | T. D. Hanson: SAE Intake Optimization | Und. Res. | Fall 2023 |
| 17. | I. M. Schuchardt: Luge CFD Optimization | Und. Res. | Spring 2023 |
| 18. | L. B. Bielawski: Creation of a 3D Luge track for Sochi | Und. Res. | Spring 2023 |
| 19. | M. K. Ogden: Luge CFD Optimization | Und. Res. | Spring 2023 |
| 20. | O. J. McGuire: Luge CFD Optimization | Und. Res. | Spring 2023 |
| 21. | M. K. Ogden: SAE Intake Optimization | Ind. Proj. | Fall 2022 |
| 22. | I. M. Schuchardt, S. N. Sikorski: Luge CFD Optimization | Und. Res. | Fall 2022 |
| 23. | M. K. Ogden: SAE Intake Optimization | Ind. Proj. | Spring 2022 |
| 24. | B. Bates, D. L. Hays, M. N. Karlehag, J. M. Linendoll, C. A. Moser, N. Niles, A. Ratto: Water desalination | Int. Design | Spring 2022 |
| 25. | I. Schuchardt, Z. Woods: Luge CFD Optimization | Und. Res. | Spring 2022 |
| 26. | T. Ruiz: GPU Solution of the Heat Equaiton | REU | Summer 2022 |
| 27. | B. Guilfoil, O. Robilard, H. Walker, E. Weaver, N. Dorrance: Water Desalination | Int. Design | Fall 2021 |
| 28. | I. Schuchardt, S. Sikorski, Z. Woods: Luge CFD Optimization | Und. Res. | Fall 2021 |
| 29. | A. Arshad: Computational Fluid Dynamic Modeling of Aortic Valve Expansion | Honors | Spring 2021 |
| 30. | K. Vassalo, N. Pascua, J. Jaramillo, A. Pirogova, J. Burns: Design of a Freeze Desalination System | Int. Design | Spring 2021 |
| 31. | A. Arshad: Computational Fluid Dynamic Modeling of Aortic Valve Expansion | Honors | Fall 2020 |
| 32. | U. Njike: Analysis of a Freeze Desalination Process | Honors | Spring 2020 |
| 33. | M. Branca: CFD Analysis of Luge | Ind. Proj. | Spring 2020 |
| 34. | R. King: Coating Flow Analysis | Ind. Proj. | Spring 2020 |
| 35. | U. Njike, R. -. Pedie, H. Cline, R. Velaidam: Design of a Freeze Desalination System | Int. Design | Spring 2020 |
| 36. | M. Gonzalez: DNS simulation of speaking | McNair | Summer 2020 |
| 37. | U. Njike: Analysis of a Freeze Desalination Process | Honors | Fall 2019 |
| 38. | M. Branca: CFD Analysis of Luge | Ind. Proj. | Fall 2019 |
| 39. | U. Njike, R. -. Pedie, H. Cline, R. Velaidam: Design of a Freeze Desalination System | Int. Design | Fall 2019 |
| 40. | U. Njike: Analysis of a Freeze Desalination Process | Honors | Spring 2019 |
| 41. | A. DiBello, H. Werner, R. Insogna, C. Sickler: Luge Modeling and Measurement | Int. Design | Spring 2019 |
| 42. | I. Chester, A. Swirsky: Mobile Snowmaking Water Control Valve | Int. Design | Spring 2019 |
| 43. | L. Mellican: 3D Prismatic Meshes for Use in Computational Fluid Mechanics with Parallel Computing | REU | Summer 2019 |
| 44. | U. Njike: Analysis of a Freeze Desalination Process | Honors | Fall 2018 |
| 45. | A. DiBello, H. Werner, R. Insogna, C. Sickler: Luge Modeling and Measurement | Int. Design | Fall 2018 |
| 46. | I. Chester, A. Swirsky: Mobile Snowmaking Water Control Valve | Int. Design | Fall 2018 |
| 47. | P. Boni, B. Gervais, T. Nuttle, R. Spinella, C. Prior, N.Vaccaro: Doubles Luge Modeling | Int. Design | Fall 2018 |
| 48. | U. Njike: Analysis of a Freeze Desalination Process | Honors | Spring 2018 |
| 49. | P. Boni, B. Gervais, T. Nuttle, R. Spinella, C. Prior, N.Vaccaro: Doubles Luge Modeling | Int. Design | Spring 2018 |
| 50. | R. Pedie: A Physical Model of Luge Steering | McNair | Summer 2018 |
| 51. | B. Nardone: Internal Wave Induced Mixing | Honors | Fall 2017 |
| 52. | J. Sakr: Aerodynamic Optimization of a Luge Sled | Honors | Fall 2017 |
| 53. | B. Nardone: Internal Wave Induced Mixing | Honors | Spring 2017 |
| 54. | J. Sakr: Aerodynamic Optimization of a Luge Sled | Honors | Spring 2017 |
| 55. | J. Hrdina: Numerical Simulation of Solidification | Ind. Proj. | Fall 2016 |
| 56. | J. Hrdina: Numerical Simulation of Solidification | Ind. Proj. | Spring 2016 |
| 57. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Fall 2015 |
| 58. | S. Travaly: MD Simulations of Solidification | Ind. Proj. | Fall 2015 |
| 59. | D. Broomfield, J. Dowst, J. Bauer: Electric Motor Soldering Fixture | Int. Design | Fall 2015 |
| 60. | D. Broomfield, K. Kingsley, J. Gavitt, K. Kendall: Electric Motor Manufacturing Fixture | Int. Design | Fall 2015 |
| 61. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Spring 2015 |
| 62. | S. Travaly: MD Simulations of Solidification | Ind. Proj. | Spring 2015 |
| 63. | D. Broomfield, J. Dowst, J. Bauer: Electric Motor Soldering Fixture | Int. Design | Spring 2015 |
| 64. | D. Broomfield, K. Kingsley, J. Gavitt, K. Kendall: Electric Motor Manufacturing Fixture | Int. Design | Spring 2015 |
| 65. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Fall 2014 |
| 66. | M. Morris: Simulation of Luge Tracks | Ind. Proj. | Fall 2014 |
| 67. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Spring 2014 |
| 68. | M. Morris: Simulation of Luge Tracks | Ind. Proj. | Spring 2014 |
| 69. | J. Barreto: Modeling of the Men’s Luge Start | McNair | Summer 2014 |
| 70. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Fall 2013 |
| 71. | D. Lienau: Discrete Element Modeling of Snow Friction | Ind. Proj. | Fall 2013 |
| 72. | K. Mulvehill: Molecular Dynamics Simulation of Solidification | Honors | Spring 2013 |
| 73. | D. Lienau: Discrete Element Modeling of Snow Friction | Ind. Proj. | Spring 2013 |
| 74. | A. Hou: Molecular Dynamics Simulation of Gases | Pre-Frosh | Summer 2013 |
| 75. | D. Stone: CAD Modeling of a Doubles Luge Sled | Pre-Frosh | Summer 2013 |
| 76. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Fall 2012 |
| 77. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Fall 2012 |
| 78. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Spring 2012 |
| 79. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Spring 2012 |
| 80. | A. Bluestein: Investigation of Drop Break-up | McNair | Summer 2012 |
| 81. | B. Conteh: Optimization of Wind Turbines | McNair | Summer 2012 |
| 82. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Fall 2011 |
| 83. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Fall 2011 |
| 84. | D. Witman: Applications of the Proper Orthogonal Decomposition to Particle Modeling | Ind. Proj. | Fall 2011 |
| 85. | N. Roskoff: Numerical Invesitgation of DAWT’s | Ind. Proj. | Fall 2011 |
| 86. | D. Witman, P. Wolber, A. Wright, G. String, M. Lang, R. Venters: Impingement Jet Cooling | Int. Design | Fall 2011 |
| 87. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Spring 2011 |
| 88. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Spring 2011 |
| 89. | D. Witman: Applications of the Proper Orthogonal Decomposition to Particle Modeling | Ind. Proj. | Spring 2011 |
| 90. | N. Roskoff: Numerical Invesitgation of DAWT’s | Ind. Proj. | Spring 2011 |
| 91. | D. Witman, P. Wolber, A. Wright, G. String, M. Lang, R. Venters: Impingement Jet Cooling | Int. Design | Spring 2011 |
| 92. | R. Venters: Thermal Modeling of Micro- and Nano-Scale Integrated Circuits | McNair | Spring 2011 |
| 93. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Fall 2010 |
| 94. | J. Callahan: CFD of Circular Cylinders in Cross-flow using RANS Modeling in ANSYS FLUENT: Comparison to Wind Tunnel Data | Honors | Fall 2010 |
| 95. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Fall 2010 |
| 96. | D. Witman: Applications of the Proper Orthogonal Decomposition to Particle Modeling | Ind. Proj. | Fall 2010 |
| 97. | N. Roskoff: Numerical Invesitgation of DAWT’s | Ind. Proj. | Fall 2010 |
| 98. | D. Witman, P. Wolber, A. Wright, G. String, M. Lang, R. Venters: Impingement Jet Cooling | Int. Design | Fall 2010 |
| 99. | R. Venters: Thermal Modeling of Micro- and Nano-Scale Integrated Circuits | McNair | Fall 2010 |
| 100. | D. Weiner: Using a Cambered Auxiliary Airfoil to Increase Lift and Efficiency of a Clark Y Airfoil at a Low Reynolds Number | Honors | Spring 2010 |
| 101. | J. Callahan: CFD of Circular Cylinders in Cross-flow using RANS Modeling in ANSYS FLUENT: Comparison to Wind Tunnel Data | Honors | Spring 2010 |
| 102. | K. Perline: A Hybrid Level-Set/Moving-Mesh Interface Tracking Method | Honors | Spring 2010 |
| 103. | D. Witman: Applications of the Proper Orthogonal Decomposition to Particle Modeling | Ind. Proj. | Spring 2010 |
| 104. | N. Roskoff: Numerical Invesitgation of DAWT’s | Ind. Proj. | Spring 2010 |
| 105. | D. Witman, P. Wolber, A. Wright, G. String, M. Lang, R. Venters: Impingement Jet Cooling | Int. Design | Spring 2010 |
| 106. | G. Ockrin: Analysis of a Two Degree of Freedom Airfoil Using a High Order Finite Element Method | McNair | Fall 2008 |
| 107. | M. Wolcott: Heat Transfer Optimization for Laminar Flow in Ribbed Pipes Using CFD | Honors | Fall 2006 |
| 108. | B. Hofstead, C. Vintinner: Pulse Jet Research | Ind. Proj. | Fall 2006 |
| 109. | R. Tompkins: Development of Parallel Computing at Clarkson University | Ind. Proj. | Fall 2006 |
| 110. | B. Hofstead, C. Vintinner: Pulse Jet Research | Int. Design | Fall 2006 |
| 111. | M. Wolcott: Heat Transfer Optimization for Laminar Flow in Ribbed Pipes Using CFD | Honors | Spring 2006 |
| 112. | B. Hofstead, C. Vintinner: Pulse Jet Research | Ind. Proj. | Spring 2006 |
| 113. | B. Hofstead, C. Vintinner: Pulse Jet Research | Int. Design | Spring 2006 |
| 114. | C. Mros: Break-up of Liquid Drops | Ind. Proj. | Fall 2005 |
| 115. | M. Stolk: Simulation of a Flapping Airfoil | Ind. Proj. | Spring 2005 |
| 116. | C. Mros: Break-up of Liquid Drops | McNair | Summer 2005 |
| 117. | J. Ngambo: Porting of Opencascade Software to OS X and Implementation of Automated CAD Tools for Use in Design | Ind. Proj. | Fall 2004 |
| 118. | P. Ashman: Fluent Simulation of Flow over a Wing | Ind. Proj. | Fall 2004 |
| 119. | Q. Sodji: - | McNair | Summer 2004 |