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Carina Schwarz (Nisters)
Carina Schwarz (Nisters)
Sonstige NamenCarina Schwarz, Carina Nisters
wissenschaftliche Mitarbeiterin, Universität Duisburg-Essen
Bestätigte E-Mail-Adresse bei uni-due.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Efficient stress–velocity least-squares finite element formulations for the incompressible Navier–Stokes equations
C Nisters, A Schwarz
Computer Methods in Applied Mechanics and Engineering 341, 333-359, 2018
192018
A computational fluid dynamics model for the small-scale dynamics of wave, ice floe and interstitial grease ice interaction
R Marquart, A Bogaers, S Skatulla, A Alberello, A Toffoli, C Schwarz, ...
Fluids 6 (5), 176, 2021
142021
Physical and mechanical properties of winter first-year ice in the Antarctic marginal ice zone along the Good Hope Line
S Skatulla, RR Audh, A Cook, E Hepworth, S Johnson, DC Lupascu, ...
The Cryosphere 16 (7), 2899-2925, 2022
122022
A comparative study of mixed least-squares FEMs for the incompressible Navier-Stokes equations
A Schwarz, M Nickaeen, S Serdas, C Nisters, A Ouazzi, J Schröder, ...
International Journal of Computational Science and Engineering 17 (1), 80-97, 2018
92018
3D modeling of generalized Newtonian fluid flow with data assimilation using the least-squares finite element method
S Averweg, A Schwarz, C Schwarz, J Schröder
Computer Methods in Applied Mechanics and Engineering 392, 114668, 2022
72022
A stress‐velocity least‐squares mixed finite element formulation for incompressible elastodynamics
C Nisters, A Schwarz, K Steeger, J Schröder
PAMM 15 (1), 217-218, 2015
62015
Frazil ice in the Antarctic marginal ice zone
F Paul, T Mielke, C Schwarz, J Schröder, T Rampai, S Skatulla, RR Audh, ...
Journal of Marine Science and Engineering 9 (6), 647, 2021
52021
The Taylor‐least‐squares time integrator scheme applied to tracer equations of a sea ice model
C Nisters, J Schröder, R Niekamp, T Ricken
PAMM 19 (1), e201900473, 2019
42019
On a least‐squares finite element formulation for sea ice dynamics
J Schröder, C Nisters, T Ricken
PAMM 18 (1), 1-2, 2018
42018
Remarks on a Fluid-Structure Interaction Scheme Based on the Least-Squares Finite Element Method at Small Strains
C Nisters, A Schwarz, S Averweg, J Schröder
Advances in Mechanics of Materials and Structural Analysis: In Honor of …, 2018
42018
Implicit time discretization schemes for mixed least-squares finite element formulations
S Averweg, A Schwarz, C Nisters, J Schröder
Computer Methods in Applied Mechanics and Engineering 368, 113111, 2020
32020
A least‐squares finite element approach to model fluid‐structure interaction problems
S Averweg, A Schwarz, C Nisters, J Schröder
PAMM 19 (1), e201900204, 2019
32019
A least‐squares finite element formulation to solve incompressible non‐Newtonian fluid flow
S Averweg, A Schwarz, C Nisters, J Schröder
PAMM 20 (1), e202000169, 2021
22021
Least-squares finite element methods with applications in fluid and solid mechanics
C Nisters
Dissertation, Duisburg, Essen, Universität Duisburg-Essen, 2018, 2018
22018
Stress-Velocity Mixed Least-Squares FEMs for the Time-Dependent Incompressible Navier-Stokes Equations
A Schwarz, C Nisters, S Averweg, J Schröder
Large-Scale Scientific Computing: 11th International Conference, LSSC 2017 …, 2018
22018
Simulating sea ice drift in the Southern Ocean incorporating real wind data using the LSFEM
C Schwarz, J Schröder
PAMM 21 (1), e202100130, 2021
12021
Least‐squares formulation to solve non‐Newtonian fluid flow and application of data assimilation in 2D
S Averweg, A Schwarz, C Schwarz, J Schröder
PAMM 21 (1), e202100022, 2021
12021
Large Scale Sea Ice Modeling–Problems and Perspectives.
C Nisters, J Schröder
PAMM 20 (1), e202000242, 2021
12021
Implicit time discretization schemes for least‐squares finite element formulations to model incompressible flows
S Averweg, A Schwarz, C Nisters, J Schröder
PAMM 18 (1), e201800166, 2018
12018
A monolithic fluid–structure interaction approach using mixed LSFEM with high-order time integration
S Averweg, A Schwarz, C Schwarz, J Schröder
Computer Methods in Applied Mechanics and Engineering 423, 116783, 2024
2024
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