Andrew DeJong
- Andrew DeJong
- Adjunct Faculty
- Engineering
- NH 256
- andrew.dejong@calvin.edu
- Curriculum Vitae
Education
- BS - Calvin College, engineering with honors in a mechanical concentration, 2010
- MS - The George Washington University, design of dynamic systems, 2012
- PhD - The George Washington University, computational fluid dynamics, 2016
Professional experience
2013-2016: Manuscript Reviewer, ASME PVPC, J Fluid Eng, and J Fluid Struct
2009-Present: Member, American Society of Mechanical Engineers
2012-2017: Regional Science and Engineering Fair Judge, American Society of Mechanical Engineers
2009-2010: Calvin College Student Chapter President, American Society of Mechanical Engineers
Publications
- Leasca and DeJong, Roughness Wall Modeling for Naval Applications in
CREATE-AV Kestrel as Modified by NSWCCD, AIAA-2023-0642, 2023 AIAA SciTech
Forum - Jemison, White, DeJong, Kannepalli, Wilson, Engel, and Starr, A Prototype
Incompressible, Pressure-Based Solver for Free-Surface Flows in CREATE-AV
Kestrel, AIAA-2023-0643, 2023 AIAA SciTech Forum - ASME Fluid Engineering Division’s Robert T Knapp 2020 Award, for 2018 ASME
FEDSM paper by Aram and DeJong. - Aram and DeJong. Numerical Comparison Between Steady and Sweeping Jets for
Active Flow Control Applications. ASME 2018 5th Joint US-European Fluids
Engineering Division Summer Meeting (2018) - DeJong and Liang. Parallel spectral difference method for predicting 3D
vortex-induced vibrations. Computers and Fluids 98 (2014) 17-26 - Best Presentation Award, 2014 Grad-Student and Post-Doc Showcase Symposium,
University of Maryland - DeJong and Liang. 3D spectral difference solver for simulating vortex-induced
vibrations of circular cylinders. AIAA-2013-2455, 21st AIAA Computational Fluid
Dynamics Conference (2013) - Diskint, Spinella-Mamo, DeJong, Tejada, and Keating. Medical flow rate monitor
and method of use. WIPO Patent Application PCT/US2013/031107. Publication
Number WO2013138537 (2013) - Liang and DeJong. Massively parallel spectral difference solver for simulating
vortex-induced vibrations of circular cylinders. IMECE2012-93334, ASME
International Mechanical Engineering Congress & Exposition (2012)
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