Thomas Engels
TitleCited byYear
Bumblebee flight in heavy turbulence
T Engels, D Kolomenskiy, K Schneider, FO Lehmann, J Sesterhenn
Phys. Rev. Lett. 116, 028103, 2016
292016
Numerical simulation of fluid-structure interaction with the volume penalization method
T Engels, D Kolomenskiy, K Schneider, J Sesterhenn
J. Comput. Phys. 281, 96-115, 2015
272015
Bumblebees minimize control challenges by combining active and passive modes in unsteady winds
S Ravi, D Kolomenskiy, T Engels, K Schneider, C Wang, ...
Sci. Rep. 6, 35043, 2016
202016
Aerodynamic ground effect in fruitfly sized insect takeoff
D Kolomenskiy, M Maeda, T Engels, H Liu, K Schneider, JC Nave
PLoS ONE 11 (3), e0152072, 2016
192016
FluSI: A novel parallel simulation tool for flapping insect flight using a Fourier method with volume penalization.
T Engels, D Kolomenskiy, K Schneider, J Sesterhenn
SIAM J. Sci. Comp. 38 (6), S03-S24, 2016
172016
Two-dimensional simulation of the fluttering instability using a pseudospectral method with volume penalization
T Engels, D Kolomenskiy, K Schneider, J Sesterhenn
Comput. Struct. 122, 101-113, 2013
152013
Numerical Modelling of Flexible Heaving Foils
D Kolomenskiy, T Engels, K Schneider
Journal of Aero Aqua Bio-mechanisms 3 (1), 22-28, 2013
92013
Added costs of insect-scale flapping flight in unsteady airflows
HL Dmitry Kolomenskiy, Sridhar Ravi, Taku Takabayashi, Teruaki Ikeda, Kohei ...
arXiv preprint arXiv:1610.09101, 2016
42016
Helical vortices generated by flapping wings of bumblebees
T Engels, D Kolomenskiy, K Schneider, M Farge, FO Lehmann, ...
Fluid Dynamics Research 50 (1), 011419, 2018
32018
Numerical simulation of vortex-induced drag of elastic swimmer models
T Engels, D Kolomenskiy, K Schneider, J Sesterhenn
Theoretical and Applied Mechanics Letters 7 (5), 280-285, 2017
32017
A numerical study of vortex-induced drag of elastic swimmer models
T Engels, D Kolomenskiy, K Schneider, J Sesterhenn
APS Division of Fluid Dynamics Meeting Abstracts, 2014
22014
The dynamics of passive feathering rotation in hovering flight of bumblebees
D Kolomenskiy, S Ravi, R Xu, K Ueyama, T Jakobi, T Engels, T Nakata, ...
Journal of Fluids and Structures, 2019
12019
Wing morphology and inertial properties of bumblebees
D Kolomenskiy, S Ravi, R Xu, K Ueyama, T Jakobi, T Engels, T Nakata, ...
Journal of Aero Aqua Bio-mechanisms 8 (1), 41-47, 2019
12019
Impact of turbulence on flying insects in tethered and free flight: High-resolution numerical experiments
T Engels, D Kolomenskiy, K Schneider, M Farge, FO Lehmann, ...
Physical Review Fluids 4 (1), 013103, 2019
2019
Local deformation and stiffness distribution in fly wings
HN Wehmann, L Heepe, SN Gorb, T Engels, FO Lehmann
Biology open 8 (1), bio038299, 2019
2019
An open and parallel multiresolution framework using block-based adaptive grids
M Sroka, T Engels, P Krah, S Mutzel, K Schneider, J Reiss
Active Flow and Combustion Control 2018, 305-319, 2019
2019
Insects in tethered and free flight: the impact of turbulent inflow
T Engels, D Kolomenskiy, K Schneider, M Farge, F Lehmann, ...
Bulletin of the American Physical Society, 2018
2018
Massively parallel free-flight simulations of a passive bumblebee in turbulence
T Engels, D Kolomenskiy, K Schneider, M Farge, F Lehmann, ...
APS Division of Fluid Dynamics Meeting Abstracts, 2017
2017
Helical vortices generated by flapping wings of bumblebees
M Farge, T Engels, D Kolomenskiy, K Schneider, F Lehmann, ...
APS Meeting Abstracts, 2016
2016
Bumblebees minimize control challenges by combining active and passive modes in unsteady winds. Supplementary material
S Ravi, D Kolomenskiy, T Engels, K Schneider, C Wang, J Sesterhenn, ...
2016
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Articles 1–20