Martin Bruschewski steht vor dem Schleppkanal in der Strömungshalle.
Dr.-Ing. Martin Bruschewski (Foto: J. Tetzke|ITZM|Universität Rostock)

Kontakt

Dr.-Ing. Martin Bruschewski

Statikgebäude (Haus IV) / Raum 118
MRI flow lab

Albert-Einstein-Straße 2
18059 Rostock

Fon +49 (0) 381 498 - 9319 (Raum 118)
Fon +49 (0) 381 498 - 9328 (MRI flow lab)
Fax  +49 (0) 381 498 - 9312
martin.bruschewskiuni-rostockde


Dr.-Ing. Martin Bruschewski

Wissenschaftlicher Mitarbeiter

Wissenschaftlicher Werdegang
Zeit(raum) Lebensstation
10/2006 − 09/2009 Studium Bachelor of Science Maschinenbau, TU Darmstadt
08/2008 − 05/2009 Auslandsstudium an der Virginia Tech, USA
06/2009 − 06/2010 Praktikum und Werkstudententätigkeit bei Rolls-Royce Deutschland
10/2009 − 12/2011 Studium Master of Science Maschinenbau, TU Darmstadt
07/2010 − 01/2011 Forschungsaufenthalt an der University of Canterbury, Neuseeland
06/2011 − 12/2011 Masterarbeit bei Rolls-Royce Deutschland
03/2011 − 08/2016 Wissenschaftlicher Mitarbeiter am Fachgebiet GLR, TU Darmstadt
seit 09/2016 Wissenschaftlicher Mitarbeiter am Lehrstuhl Strömungsmechanik, Universität Rostock
Veröffentlichung (begutachtet) / journal articles

Barapatre, N.; Frank, D.; Achterhold, K.; Pfeiffer, F.; Edler von Koch, F.; Grundmann, S.; Frank, H.-G.; Bruschewski, M.

Fluid flow patterns in the intervillous space of a scaled, 3D-printed, human placental cotyledon as visualized by high-resolution MRI.
Placenta, 154, e32, 2024. doi:10.1016/j.placenta.2024.07.145

Benson, M. J.; Banko, A. J.; Elkins, C. J.; An, D.-G.; Song, S.; Bruschewski, M.; Grundmann, S.; Bandopadhyay, T.; Roca, L. V.; Sutton, B.; Han, K.; Hwang, W.; Eaton, J. K.

MRV challenge 2: phase locked turbulent measurements in a roughness array.
Experiments in Fluids, 64 (2), 2023. doi:10.1007/s00348-023-03572-4

Bruschewski, M.; Wüstenhagen, C.; Domnick, C.; Krewinkel, R.; Shiau, C.-C.; Grundmann, S.; Han, J.-C.

Assessment of the Flow Field and Heat Transfer in a Vane Cooling System Using Magnetic Resonance Velocimetry, Thermochromic Liquid Crystals, and Computational Fluid Dynamics.
Journal of Turbomachinery, 145 (3), 2023. doi:10.1115/1.4055611

Hogendoorn, W.; Breugem, W.-P.; Frank, D.; Bruschewski, M.; Grundmann, S.; Poelma, C.

From nearly homogeneous to core-peaking suspensions: Insight in suspension pipe flows using MRI and DNS.
Physical Review Fluids, 8 (12), 2023. doi:10.1103/PhysRevFluids.8.124302

Lehnigk, R.; Bruschewski, M.; Huste, T.; Lucas, D.; Rehm, M.; Schlegel, F.

Sustainable development of simulation setups and addons for OpenFOAM for nuclear reactor safety research.
Kerntechnik, 88 (2), pp. 131–140, 2023. doi:10.1515/kern-2022-0107

Wüstenhagen, C.; Domnick, C.; John, K.; Bruschewski, M.; Grundmann, S.

Magnetic Resonance Velocimetry Measurements of Internal Blade Cooling Flow and Computational Fluid Dynamic Validation by Data Matching With the Experimental Data
Journal of Thermal Science and Engineering Applications, 15 (9), 2023, doi:10.1115/1.4062556

Bruschewski, M.; John, K.; Benson, M. J.; Grundmann, S.

Combined temperature and velocity field measurements in thermal fluid systems with magnetic resonance velocimetry
In: tm - Technisches Messen, 89(3), pp. 168–177, 2022, doi: 10.1515/teme-2021-0122

John, K.; Wüstenhagen, C.; Schmidt, S.; Schmitter, S.; Bruschewski, M.; Grundmann, S.

Reynolds stress tensor and velocity measurements in technical flows by means of magnetic resonance velocimetry
In: tm - Technisches Messen, 89(3), pp. 201–209, 2022, doi: 10.1515/teme-2021-0123

Bruschewski, M.; Flint, S.; Becker, S.

Magnetic Resonance Velocimetry Measurement of Viscous Flows through Porous Media: Comparison with Simulation and Voxel Size Stud
In: Physics, 3 (4), pp. 1254–1267, 2021, doi: 10.3390/physics3040079

Bruschewski, M.; John, K.; Wüstenhagen, C.; Rehm, M.; Hadzic, H.; Pohl, P.; Grundmann, S.

Commissioning of an MRI test facility for CFD-grade flow experiments in replicas of nuclear fuel assemblies and other reactor components
In: Nuclear Engineering and Design (375), 111080, 2021, doi: 10.1016/j.nucengdes.2021.111080

Bruschewski, M.; Schmidt, S.; John, K.; Grundmann, S.; Schmitter, S.

An unbiased method for PRF-shift temperature measurements in convective heat transfer systems with functional parts made of metal
In: Magnetic resonance imaging, 75, pp. 124–133, 2021,  doi: 10.1016/j.mri.2020.10.006

Konnigk, L.; Torner, B.; Bruschewski, M.; Grundmann, S.; Wurm, F.-H.

Equivalent Scalar Stress Formulation Taking into Account Non-Resolved Turbulent Scales
In: Cardiovascular engineering and technology, 12 (3), pp. 251–272, 2021,  doi: 10.1007/s13239-021-00526-x

Rauh, A.; John, K.; Wüstenhagen, C.; Bruschewski, M.; Grundmann, S.

An Unscented Transformation Approach for Stochastic Analysis of Measurement Uncertainty in Magnet Resonance Imaging with Applications in Engineering
In: International Journal of Applied Mathematics and Computer Science, 31 (1), 2021

Schmidt, S.; Bruschewski, M.; Flassbeck, S.; John, K.; Grundmann, S.; Ladd, M. E.; Schmitter, S.

Phase-contrast acceleration mapping with synchronized encoding
In: Magnetic resonance in medicine, 86 (6), pp. 3201–3210, 2021, doi: 10.1002/mrm.28948

Schmidt, S.; John, K.; Kim, S. J.; Flassbeck, S.; Schmitter, S.; Bruschewski, M.

Reynolds stress tensor measurements using magnetic resonance velocimetry: expansion of the dynamic measurement range and analysis of systematic measurement errors
In: Experiments in Fluids, 62 (6), 2021, doi: 10.1007/s00348-021-03218-3

Wüstenhagen, C.; John, K.; Langner, S.; Brede, M.; Grundmann, S.; Bruschewski, M.

CFD validation using in-vitro MRI velocity data – methods for data matching and CFD error quantification
In: Computers in Biology and Medicine (131), 2021, doi: 10.1016/j.compbiomed.2021.104230

Benson, M. J.; Banko, A. J.; Elkins, C. J.; An, D.-G.; Song, S.; Bruschewski, M.; Grundmann, S.; Borup, D.; Eaton, J. K.

The 2019 MRV challenge: turbulent flow through a U-bend
In: Experiments in Fluids, 61 (6), 2020, dx.doi.org/10.1007/s00348-020-02986-8

Bruschewski, M.; Grundmann, S.; Schiffer, H.-P.

Considerations for the design of swirl chambers for the cyclone cooling of turbine blades and for other applications with high swirl intensity
In: International Journal of Heat and Fluid Flow, 86, p. 108670–108670, 2020, dx.doi.org/10.1016/j.ijheatfluidflow.2020.108670

Bruschewski, M.; Piro, M.H.A.; Tropea, C.; Grundmann, S.

Fluid flow in a diametrally expanded CANDU fuel channel – Part 1: Experimental study
In: Nuclear Engineering and Design, 357, 2020, dx.doi.org/10.1016/j.nucengdes.2019.110371

John, K.; Jahangir, S.; Gawandalkar, U.; Hogendoorn, W.; Poelma, C.; Grundmann, S.; Bruschewski, M.

Magnetic resonance velocimetry in high-speed turbulent flows: sources of measurement errors and a new approach for higher accuracy
In: Experiments in Fluids, 61 (2), pp. 1–17, 2020, dx.doi.org/10.1007/s00348-019-2849-4

John, K.; Rauh, A.; Bruschewski, M.; Grundmann, S.

Towards Analyzing the Influence of Measurement Errors in Magnetic Resonance Imaging of Fluid Flows
In: Acta Cybernetica, 24 (3), pp. 343–372, 2020, dx.doi.org/10.14232/actacyb.24.3.2020.5

Piro, M.H.A.; Christon, M.; Tensuda, B.; Poschmann, M.; Bruschewski, M.; Grundmann, S.; Tropea, C.

Fluid flow in a diametrally expanded CANDU fuel channel – Part 2: Computational study
In: Nuclear Engineering and Design, 357, 2020, dx.doi.org/10.1016/j.nucengdes.2019.110372

Bruschewski, M.; Kolkmannn, H.; John, K.; Grundmann, S.

Phase-contrast single-point imaging with synchronized encoding: a more reliable technique for in vitro flow quantification
In: Magnetic resonance in medicine, 81, pp. 2937–2946, 2019, dx.doi.org/10.1002/mrm.27604

Oldenburg, J.; Borowski, F.; Schmitz, K.-P.; Stiehm, M.; Öner, A. Ö.; Quirin, L.; John, K.; Bruschewski, M.; Grundmann, S.

MRV-validated numerical flow analysis of thrombotic potential of coronary stent designs
In: Current Directions in Biomedical Engineering, 5 (1), pp. 77–80, 2019, dx.doi.org/10.1515/cdbme-2019-0020

Werschnik, H.; Hilgert, J.; Wilhelm, M.; Bruschewski, M.; Schiffer, H.-P.

Influence of Combustor Swirl on Endwall Heat Transfer and Film Cooling Effectiveness at the Large Scale Turbine Rig
In: Journal of Turbomachinery, 139 (8), p. 21040–21040, 2017, dx.doi.org/10.1115/1.4035832

Bruschewski, M.; Freudenhammer, D.; Buchenberg, W. B.; Schiffer, H.-P.; Grundmann, S.

Estimation of the measurement uncertainty in magnetic resonance velocimetry based on statistical models
In: Experiments in Fluids, 57 (5), p. 1383–1383, 2016, dx.doi.org/10.1007/s00348-016-2163-3

Bruschewski, M.; Scherhag, C.; Schiffer, H.-P.; Grundmann, S.

Influence of Channel Geometry and Flow Variables on Cyclone Cooling of Turbine Blades
In: Journal of Turbomachinery, 138 (6), p. 61005–61005, 2016, dx.doi.org/10.1115/1.4032363

Tagung (begutachtet) / proceedings international (peer reviewed)

Frank, D.; Bruschewski, M.; Grundmann, S.

3D Magnetic Resonance Velocimetry Measurements of Turbulent GasLiquid Flow
In: Proceedings of the 9th World Congress on Momentum, Heat and Mass Transfer. Avestia Publishing (World Congress on Momentum, Heat and Mass Transfer), 2024. doi:10.11159/icmfht24.162

Frank, D.; Klempau, V.; Rehm, M.; Pohl, P.; Fichet, V.; Vinauger, F.; Grundmann, S.; Bruschewski, M.

Three-Dimensional Benchmark Datasets for Turbulent Multiphase Flows Obtained With Magnetic Resonance Velocimetry
In: TopFuel 2024 Reactor Fuel Performance. Proceedings Track 6 - Modelling, Analysis, and Methods. European Nuclear Society, Brussels, Belgium, 2024, ISBN 978-92-95064-41-6

Grundmann, S.; John, K.; Bruschewski, M.

Aktuelle Entwicklungen in der Magnetresonanz-Velocimetry für technische Strömungen
In: Rauh, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik. 31. Fachtagung: 3.-5. September 2024, Berlin. GALA, Karlsruhe, 1.1-1.11, 2024, ISBN 9783981676440

Klempau, V.; Rehm, M.; John, K.; Rieder, E.; Grundmann, S.; Bruschewski, M.

Volumetric Measurements by Means of Magnetic Resonance Velocimetry in Particle Laden Flows: Flow Interaction and Particle Deposition at Fuel Assembly Filter
In: Rauh, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik. 31. Fachtagung: 3.-5. September 2024, Berlin. GALA, Karlsruhe, 16.1-16.8, 2024, ISBN 9783981676440

Romig, S.; John, K.; Bruschewski, M.; Grundmann, S.

Acquiring Reynolds stresses using magnetic resonance velocimetry -modeling assumptions compared to LDF
In: Rauh, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik. 31. Fachtagung: 3.-5. September 2024, Berlin. GALA, Karlsruhe, 2.1-2.8, 2024, ISBN 9783981676440

Wüstenhagen, C.; Romig, S.; Bruschewski, M.; Grundmann, S.

3D MRV Measurements of the Velocity and Reynolds Stress Tensor of an Impingement Cooling Flow as Validation Data for CFD
In: Rauh, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik. 31. Fachtagung: 3.-5. September 2024, Berlin. GALA, Karlsruhe, 24.1-24.8, 2024, ISBN 9783981676440

Wüstenhagen, C.; Domnick, C.; Grundmann, S.; Bruschewski, M.

3D Data Matching of Rans Results with Experimental Magnetic Resonance Velocity Data to Validate and Identify the Optimal Turbulence Model for the Specific Application
In: 14th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements. 6.-8. September, Barcelona, 132.1 - 132.5, 2023

Bruschewski, M.; Wüstenhagen, C.; Domnick, C.; Krewinkel, R.; Shiau, C.-C.; Grundmann, S.; Han, J.-C.

Assessment of the Flow Field and Heat Transfer in an NGV Using Magnetic Resonance Velocimetry, Thermochromic Liquid Crystals and CFD
In: Proceedings of ASME Turbo Expo 2022, Turbomachinery Technical Conference and Exposition, June 13-17, 2022, Rotterdam, The NetherlandsVolume. American Society of Mechanical Engineers, 2022, ISBN 978-0-7918-8604-5, doi: 10.1115/GT2022-79526

Hogendoorn, W.; Frank, D.; Bruschewski, M.; Poelma, C.

Experimental investigation of shear-induced migration in particle-laden pipe flow using MRI
In: 12th International Symposium on "Turbulence and Shear Flow Phenomena" - TSFP12; Osaka, Japan, 2022

John, K.; Bruschewski, M.; Rehm, M.; Hadzic, H.; Grundmann, S.

MRV Geschwindigkeits- und Turbulenzquantifizierung im MATiS-H Benchmark zur Validierung von CFD-Methoden der nuklearen Reaktorsicherheit
In: Cierpka, C. (Ed.): Experimentelle Strömungsmechanik – 29. Fachtagung, 6.-8. September 2022, Ilmenau. GALA, Karlsruhe, 34.1-34.6, 2022, ISBN 978-3-9816764-8-8

John, K.; Wüstenhagen, C.; Bruschewski, M.; Grundmann, S.

Reynolds Stress Tensor Measurements In A Shear-Thinning Fluid Using Magnetic Resonance Velocimetry: A Parameter Study With the FDA Benchmark Nozzle
In: 20th International Symposium on Applications of Laser Techniques to Fluid Mechanics. Lisbon, Portugal, 2022

Wüstenhagen, C.; Domnick, C.; Bruschewski, M.; Grundmann, S.

CFD-Validierung einer Statorschaufel mittels MRV zur Ermittlung des optimalen Turbulenzmodells
In: Cierpka, C. (Ed.): Experimentelle Strömungsmechanik – 29. Fachtagung, 6.-8. September 2022, Ilmenau. GALA, Karlsruhe, 35.1-35.11, 2022, ISBN 978-3-9816764-8-8

Wüstenhagen, C.; Domnick, C.; John, K.; Bruschewski, M.; Grundmann, S.

MRI Investigations of Internal Blade Cooling Flow and CFD Optimization Through Data Matching
In: Proceedings of ASME Turbo Expo 2022, Turbomachinery Technical Conference and Exposition, June 13-17, 2022, Rotterdam, The NetherlandsVolume. American Society of Mechanical Engineers, 2022, ISBN 978-0-7918-8604-5, doi: 10.1115/GT2022-82396

Bruschewski, M.; John, K.; Schmidt, S.; Schmitter, S.; Grundmann, S.

Simultaneous temperature and velocity field measurements in water flows using MRV
In: Fischer, A.; Stöbener, D.; Vanselow, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik - 28. Fachtagung, 7.-9. September 2021, Bremen, Karlsruhe, GALA 4.1-4.5, 2021, ISBN 978-3-9816764-7-1

Frank, D.; Hogendoorn, W.; Bruschewski, M.; Grundmann, S.; Poelma. C.

MRV Measurement of Velocity and Particle Distribution within Particle-Laden Pipe Flows
In: Fischer, A.; Stöbener, D.; Vanselow, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik - 28. Fachtagung, 7.-9. September 2021, Bremen, Karlsruhe, GALA 33.1-33.7, 2021, ISBN 978-3-9816764-7-1

John, K.; Bruschewski, M.; Schmidt, S.; Flassbeck, S.; Schmitter, S.; Grundmann, S.

Reynolds stress tensor measurements using MRV – Comparison with LDV and sources of error
In: Fischer, A.; Stöbener, D.; Vanselow, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik - 28. Fachtagung, 7.-9. September 2021, Bremen, Karlsruhe, GALA 12.1-12.8, 2021, ISBN 978-3-9816764-7-1

Wüstenhagen, C.; Domnick, C.; Krewinkel, R.; Bruschewski, M.; Grundmann, S.

Turbine blade cooling: data matching of MRV and CFD data sets
In: Fischer, A.; Stöbener, D.; Vanselow, C.; Ruck, B.; Leder, A. (Eds.): Experimentelle Strömungsmechanik - 28. Fachtagung, 7.-9. September 2021, Bremen, Karlsruhe, GALA 11.1–11.7, 2021, ISBN 978-3-9816764-7-1

Rauh, A.; John, K.; Bruschewski, M.; Grundmann, S.

Comparison of Two Different Interval Techniques for Analyzing the Influence of Measurement Uncertainty in Compressed Sensing for Magnet Resonance Imaging
In: 2020 European Control Conference (ECC), IEEE pp. 1865–1870, 2020, ISBN 978-3-90714-402-2, dx.doi.org/10.23919/ECC51009.2020.9143604

Bruschewski, M.; John, K.; Quirin, L.; Burgmann, S.; Grundmann, S.

Entwicklung von MRT-Techniken zur 3D-Geschwindigkeitsmessung in porösen Medien
In: Delgado, A. (Ed.): Experimentelle Strömungsmechanik, 27. Fachtagung 3.-5. September 2019 Erlangen, Karlsruhe, Deutsche Gesellschaft für Laser-Anemometrie - German Association for Laser Anemometry GALA e.V 4.1-4.7, 2019, ISBN 9783981676464

John, K.; Bruschewski, M.; Jahangir, S.; Hogendoorn, W.; Poelma, C.; Grundmann, S.

Entwicklung einer neuen Methode zur Messung schneller Strömungen mittels Magnetresonanztomographie
In: Delgado, A. (Ed.): Experimentelle Strömungsmechanik, 27. Fachtagung 3.-5. September 2019 Erlangen, Karlsruhe, Deutsche Gesellschaft für Laser-Anemometrie - German Association for Laser Anemometry GALA e.V 1.1-1.8, 2019, ISBN 9783981676464

Bruschewski, M.; John, K.; Grundmann, S.

Flow Lab: A Dedicated Magnetic Resonance Laboratory for Quantitative Flow Measurements and Method Development
In: Proceedings of the 19th International Symposium on Application of Laser and Imaging Techniques to Fluid Mechanics 2018, ISBN 978-989-20-9177-8

Bruschewski, M.; John, K.; Grundmann, S.

MRI Flow Lab – Magnetresonanzlabor für Strömungsmechanische Untersuchungen
In: Grundmann, S.; Brede, M.; Ruck, B.; Leder, A.; Dopheide, D. (Eds.): Experimentelle Strömungsmechanik, 26. Fachtagung : 4.-6. September 2018, Rostock, Karlsruhe, Deutsche Gesellschaft für Laser-Anemometrie GALA e.V 5.1-5.8, 2018, ISBN 9783981676457

John, K.; Bruschewski, M.; Grundmann, S.

MRI Flow Lab: A Dedicated MRI Laboratory for Quantitative Flow Measurements and Method Development
In: Kähler, C. J.; Hein, R.; Scharnowski, S.; Fuchs, T. (Eds.): 5th International Conference on Experimental Fluid Mechanics Conference Proceedings, Institute of Fluid Mechanics and Aerodynamics, Universität der Bundeswehr München, Germany 2018, ISBN 978-3-943207-32-3, dx.doi.org/10.18726/2018_2

John, K.; Bruschewski, M.; Grundmann, S.

Zeitaufgelöste Messungen von Mehrphasenströmungen mittels Magnetresonanztomographie
In: Grundmann, S.; Brede, M.; Ruck, B.; Leder, A.; Dopheide, D. (Eds.): Experimentelle Strömungsmechanik, 26. Fachtagung : 4.-6. September 2018, Rostock, Karlsruhe, Deutsche Gesellschaft für Laser-Anemometrie GALA e.V 42.1-42.8, 2018, ISBN 9783981676457

Bruschewski, M.; Freudenhammer, D.; Schiffer, H.-P.; Grundmann, S.

Pressure Field Estimation from 3D MRV Velocity Data
In: 18th International Symposium on Applications of Laser Techniques to Fluid Mechanics, Lisbon 2016, ISBN 978-989-98777-8-8

Bruschewski, M.; Scherhag, C.; Schiffer, H.-P.; Grundmann, S.

Influence of Channel Geometry and Flow Variables on Cyclone Cooling of Turbine Blades
In: ASME Turbo Expo 2015: Turbine Technical Conference and Exposition pp. V05AT11A020, Monday 15 June 2015, dx.doi.org/10.1115/GT2015-42860

Bruschewski, M.; Scherhag, C.; Schiffer, H.-P.; Grundmann, S.

Influence of Channel Geometry and Flow Variables on Cyclone Cooling of Turbine Blades
In: ASME Turbo Expo 2015: Turbine Technical Conference and Exposition pp. V05AT11A020‐V05AT11A020, 2015, dx.doi.org/10.1115/1.4032363

Bruschewski, M.; Scherhag, C.; Grundmann, S.; Schiffer, H.-P.

Swirl flow formations in cooling ducts
In: Proceedings of CONV-14: International Symposium on Convective Heat and Mass Transfer. June 8 - 13, 2014, Kusadasi, Turkey 2014

Bruschewski, M.; Scherhag, C.; Grundmann, S.; Schiffer, H.-P.

Swirling flow formations in circular channels
In: Proceedings of 10th International ERCOFTAC Symposium on Engineering Turbulence Modeling and Measurements, Marbella, Spain, September 17-19 2014

Bruschewski, M.; Schiffer, H.-P.; Grundmann, S.

Theoretical and Experimental Investigation of Subcritical and Supercritical Vortex Flows
In: Bulletin of the American Physical Society, 59, 2014

Bruschewski, M.; Schiffer, H.-P.; Grundmann, S.

Measuring Turbulent Swirling Flow with Phase-Contrast MRI
In: 17th International Symposium on Application of Laser Techniques to Fluid Mechanics, Lisbon 2014

Sonstige Veröffentlichung / other publications

Bruschewski, M.; John, K.; Grundmann, S.

In-vitro validation of clinically relevant PC MRImethods using the SYNC SPI method as a gold standard
In: ESMRMB 2019, 36th Annual Scientific Meeting 2019, dx.doi.org/10.1007/s10334-019-00753-3

John, K.; Bruschewski, M.; Quirin, L.; Oldenburg, J.; Borowski, F.; Schmitz, K. P.; Stiehm, M.; Grundmann, S.

3D MRI velocity measurements in coronary stent designs for the validation of numerical analyses
In: ESMRMB 2019, 36th Annual Scientific Meeting 2019, dx.doi.org/10.1007/s10334-019-00754-2

Wassermann, F.; Freudenhammer, D.; Bruschewski, M.; Grundmann, S.

Magnetic Resonance Imaging for Engineering Applications
2016, Online verfügbar unter www.laboratory-journal.com/science/material-science/magnetic-resonance

Bruschewski, M.; Schiffer, H.-P.; Grundmann, S.

Measuring Turbulent Swirling Flow with Phase-Contrast MRI
In: 17th International Symposium on Application of Laser Techniques to Fluid Mechanics, Lisbon 2014