Geoffrey Vaartstra
Geoffrey Vaartstra
Graduate Researcher, MIT
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A unified relationship for evaporation kinetics at low Mach numbers
Z Lu, I Kinefuchi, KL Wilke, G Vaartstra, EN Wang
Nature Communications 10 (1), 2368, 2019
Simultaneous prediction of dryout heat flux and local temperature for thin film evaporation in micropillar wicks
G Vaartstra, Z Lu, EN Wang
International Journal of Heat and Mass Transfer 136, 170-177, 2019
Capillary-fed, thin film evaporation devices
G Vaartstra, L Zhang, Z Lu, CD Díaz-Marín, JC Grossman, EN Wang
Journal of Applied Physics 128 (13), 130901, 2020
Two-phase vapor chambers with micropillar evaporators: a new approach to remove heat from future high-performance chips
Z Yuan, G Vaartstra, P Shukla, M Said, S Reda, E Wang, AK Coskun
2019 18th IEEE Intersociety Conference on Thermal and Thermomechanical …, 2019
Modeling and Optimization of Chip Cooling with Two-Phase Vapor Chambers
Z Yuan, G Vaartstra, P Shukla, S Reda, E Wang, AK Coskun
2019 IEEE/ACM International Symposium on Low Power Electronics and Design …, 2019
A learning-based thermal simulation framework for emerging two-phase cooling technologies
Z Yuan, G Vaartstra, P Shukla, Z Lu, E Wang, S Reda, AK Coskun
2020 Design, Automation & Test in Europe Conference & Exhibition (DATE), 400-405, 2020
Microtube Surfaces for the Simultaneous Enhancement of Efficiency and Critical Heat Flux during Pool Boiling
Y Song, S Gong, G Vaartstra, EN Wang
ACS Applied Materials & Interfaces 13 (10), 12629-12635, 2021
Comprehensive modeling of thin film evaporation in micropillar wicks
G Vaartstra
Massachusetts Institute of Technology, 2019
Comprehensive Modeling of Capillary Flow and Evaporation in Micropillar Wicks
G Vaartstra, Z Lu, E Wang
Bulletin of the American Physical Society 63, 2018
Parametric Study on the Effect of Partial Charge on Water Infiltration Behavior in MFI Zeolites
GA Vaartstra, T Humplik, EN Wang, SC Maroo
ASME 2015 International Mechanical Engineering Congress and Exposition, 2015
Measurement of the Condensation Coefficient of Water Using an Ultrathin, Nanoporous Membrane
G Vaartstra, Z Lu, J Lee, JC Grossman, EN Wang
MEMS, Field-Emitter, Thermal, and Fluidic Devices, 115, 0
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