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List of publications and PhD thesis published at the ITLR.

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Scientific articles from the ITLR since 2010

2025
1. Palmetshofer, P., Wurst, J., Geppert, A. K., Schulte, K., Cossali, G. E., & Weigand, B. (2025). Wetting behavior in the inertial phase of droplet impacts onto sub-millimeter microstructured surfaces. Journal of Colloid and Interface Science, 682, 413–422. https://doi.org/10.1016/j.jcis.2024.11.154
2024
1. Mandler, H., & Weigand, B. (2024). Generalized field inversion strategies for data-driven turbulence closure modeling. Physics of Fluids, 36, 105188. https://doi.org/10.1063/5.0231494
2. Mandler, H., & Weigand, B. (2024). A review and benchmark of feature importance methods for neural networks. ACM Computing Surveys, 56(12), Article 12. https://doi.org/10.1145/3679012
3. Gutiérrez de Arcos, D., Waidmann, C., Poser, R., von Wolfersdorf, J., Jäppelt, B., & Semmler, K. (2024, September). Effect of protrusions and leading edge ribs on the local heat transfer characteristics in a two-pass cooling channel under rotation. Proceedings of Global Power & Propulsion Society. https://doi.org/10.33737/gpps24-tc-045
4. Steigerwald, J., Ibach, M., Geppert, A. K., & Weigand, B. (2024). Numerical investigation of drop-film interactions with a thixotropic liquid. Journal of Non-Newtonian Fluid Mechanics, 105259. https://doi.org/10.1016/j.jnnfm.2024.105259
5. Schubert, S., Steigerwald, J., Geppert, A. K., Weigand, B., & Lamanna, G. (2024). Micro-PIV study on the influence of viscosity on the dynamics of droplet impact onto a thin film. Experiments in Fluids, 65(5), Article 5. https://doi.org/10.1007/s00348-024-03800-5
6. Potyka, J., & Schulte, K. (2024). A volume of fluid method for three dimensional direct numerical simulations of immiscible droplet collisions. International Journal of Multiphase Flow, 170, 104654. https://doi.org/10.1016/j.ijmultiphaseflow.2023.104654
7. Palmetshofer, P., Geppert, A. K., Steigerwald, J., Arcos Marz, T., & Weigand, B. (2024). Thermocapillary central lamella recess during droplet impacts onto a heated wall. Scientific Reports, 14(1), Article 1. https://doi.org/10.1038/s41598-024-51382-3
8. Geppert, A. K., Stober, J. L., Steigerwald, J., Schulte, K., Tonini, S., & Lamanna, G. (2024). Analyzing the early impact dynamics of single droplets impacting onto wetted surfaces. Physics of Fluids. https://doi.org/10.1063/5.0179716
9. Wurst, J., & Schulte, K. (2024). Simulation framework for capillary driven two-phase flow using PLIC-based contact line modelling. Coupled Free Flow - Porous Medium Systems Workshop, Stuttgart, Germany.
10. Wurst, J., Dreisbach, M., Stroh, A., Kriegseis, J., & Schulte, K. (2024). Simulation framework for drop impact on micro-grooves using PLIC-based contact line modelling. 5th International Conference on Numerical Methods in Multiphase Flows (ICNMMF), Reykjavik, Iceland.
11. Potyka, J., Stober, J., Wurst, J., Ibach, M., Steigerwald, J., Weigand, B., & Schulte, K. (2024). Towards DNS of Droplet-Jet Collisions of Immiscible Liquids with FS3D. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ’22 (pp. 197–212). Springer Nature Switzerland. https://doi.org/10.1007/978-3-031-46870-4_14
12. Palmetshofer, P., & Wurst, J. (2024). Replication Data for: Wetting behavior in the inertial phase of droplet impacts onto sub-millimeter microstructured surfaces. https://doi.org/10.18419/darus-4178
13. Nüßle, M., Ebertz, F. L., Essig, N., Schulz, C., Weigand, B., & Steinhausen, C. (2024). Non-Intrusive Frequency Measurements With Laser Shadowgraphy And Event-Based Schlieren Imaging Of Bluff Body Wakes In Compressible Flow. 21, 1--11. https://doi.org/10.55037/lxlaser.21st.35
14. Mandler, H., & Weigand, B. (2024). Generalization Limits of Data‑Driven Turbulence Models. Flow, Turbulence and Combustion. https://doi.org/10.1007/s10494-024-00595-7
15. Mandler, H., & Weigand, B. (2024). Extrapolation from academic training to industrial test cases: Application of a data-driven closure model to internal cooling channels of gas turbine blades. 1st Workshop on Machine Learning for Fluid Dynamics, Paris, France, 6-8 March 2024.
16. Heine, B., Veith, B., Geppert, A., Selzer, T., Denis, T., Kaufmann, K., Maier, S., Schlun, M., Seemann, S., & Weigand, B. (2024). From Liquid To Aerosol: Exploring Droplet Formation in Vibrating Mesh Nebulization. Respiratory Drug Delivery 2024, 1, 111–122. https://www.rddonline.com/rdd/article.php?id=0&sid=103&ArticleID=3115&return=1
17. Hartmann, C., & von Wolfersdorf, J. (2024). Determination of Local Heat Transfer Coefficients and Friction Factors at Variable Temperature and Velocity Boundary Conditions for Complex Flows. Fluids, 9(9), Article 9. https://doi.org/10.3390/fluids9090197
18. Gutiérrez de Arcos, D., Waidmann, C., Poser, R., von Wolfersdorf, J., & Göhring, M. (2024). Rotationally Induced Local Heat Transfer Features in a Two-Pass Cooling Channel: Experimental–Numerical Investigation. International Journal of Turbomachinery, Propulsion and Power, 9(4), Article 4. https://doi.org/10.3390/ijtpp9040034
2023
1. Stober, J. L., Santini, M., & Schulte, K. (2023). Influence of Weber Number on Crown Morphology during an Oblique Droplet Impact on a Thin Wall Film. Fluids. https://doi.org/10.3390/fluids8110301
2. Kromer, J., Potyka, J., Schulte, K., & Bothe, D. (2023). Efficient sequential PLIC interface positioning for enhanced performance of the three-phase VoF method. Computers & Fluids. https://doi.org/10.1016/j.compfluid.2023.106051
3. Potyka, J., Schulte, K., & Planchette, C. (2023). Liquid distribution after head-on separation of two colliding immiscible liquid droplets. Physics of Fluids, 35(10), Article 10. https://doi.org/10.1063/5.0168080
4. Mandler, H., & Weigand, B. (2023, September). Embedding explicit smoothness constraints in data-driven turbulence models. Proceedings of the 14th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements.
5. Mandler, H., & Weigand, B. (2023). Feature importance in neural networks as a means of interpretation for data-driven turbulence models. Computers & Fluids, 105993. https://doi.org/10.1016/j.compfluid.2023.105993
6. Härter, J., Martinez, D. S., Poser, R., Weigand, B., & Lamanna, G. (2023). Coupling between a turbulent outer flow and an adjacent porous medium: High resolved Particle Image Velocimetry measurements. Physics of Fluids. https://doi.org/10.1063/5.0132193
7. Straub, A., Karch, G. K., Steigerwald, J., Sadlo, F., Weigand, B., & Ertl, T. (2023). Visual Analysis of Interface Deformation in Multiphase Flow. Journal of Visualization. https://doi.org/10.1007/s12650-023-00939-x
8. Stober, J. L., Potyka, J., Ibach, M., Weigand, B., & Schulte, K. (2023). DNS of the Early Phase of Oblique Droplet Impact on Thin Films with FS3D. In High Performance Computing in Science and Engineering ’23. Springer International Publishing. /brokenurl# https://doi.org/10.48550/arXiv.2311.17690
9. Steinhausen, C., Schaumäker, A., Weigand, B., & Lamanna, G. (2023). On the onset of transcritical phase transition: An analytical approach using a non-equilibrium evaporation model. Proceedings 11th International Conference on Multiphase Flow, ICMF 2023: April 2–7, 2023, Kobe, Japan.
10. Steinhausen, C., Gerber, V., Stierle, R., Preusche, A., Dreizler, A., Gross, J., Weigand, B., & Lamanna, G. (2023). Characterisation of the transient mixing behaviour of evaporating near-critical droplets. Frontiers in Physics, 11. https://doi.org/10.3389/fphy.2023.1192416
11. Steinhausen, C. (2023). Investigation of macroscopic nearcritical fluid phenomena by applying laser-induced thermal acoustics [Dissertation]. In Thermodynamik. Verlag Dr. Hut.
12. Seibold, F., & Weigand, B. (2023). Numerical investigation of the flow and heat transfer in convergent swirl chambers. In High Performance Computing in Science and Engineering ’21 (pp. 259--274). Springer International Publishing. https://doi.org/10.1007/978-3-031-17937-2_15
13. Schlottke, A., Ibach, M., Steigerwald, J., & Weigand, B. (2023). Direct numerical simulation of a disintegrating liquid rivulet at a trailing edge. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ’21 (pp. 239--257). Springer International Publishing. https://doi.org/10.1007/978-3-031-17937-2_14
14. Potyka, J., Schulte, K., & Planchette, C. (2023). Simulation and Experimental data on liquid distribution after the head-on separation of immiscible liquid droplet collisions. https://doi.org/10.18419/darus-3594
15. Potyka, J., & Schulte, K. (2023). Setups for and Outcomes of Immiscible Liquid Droplet Collision Simulations. https://doi.org/10.18419/darus-3557
16. Palmetshofer, P., Ren, W., Steigerwald, J., Geppert, A., & Weigand, B. (2023). Experimental and Numerical Investigation of Droplet Impacts onto Pillars with a Wetted Base. ICMF 2023: 11th International Conference on Multiphase Flow, Kobe, Japan.
17. Palmetshofer, P., Heckel, J., Geppert, A., & Weigand, B. (2023). Experimental investigation of the height and angle of an uprising sheet occurring in near-simultaneous double droplet impacts onto smooth surfaces of varying wettability. ILASS Europe 2023, 32nd European Conference on Liquid Atomization & Spray Systems: 4-7 Sept 2023, Napoli, Italy.
18. Mandler, H., & Weigand, B. (2023). Die Entmystifizierung maschinellen Lernens am Beispiel datengetriebener Turbulenzmodellierung. Jahrestreffen Der DECHEMA-Fachgruppen Computational Fluid Dynamics Und Wärme- Und Stoffübertragung, Frankfurt, Germany, 6-8 March 2023.
19. Mandler, H., & Weigand, B. (2023). Towards interpretable data-driven closure models. 18th European Turbulence Conference, ETC18, Valencia, Spain, 4-6 September 2023.
20. Lamanna, G., Steinhausen, C., & Weigand, B. (2023). On the role of trancritical evaporation in controlling the transition from two-phase to single-phase mixing. Proceedings ILASS Europe 2023, 32nd European Conference on Liquid Atomization & Spray Systems: 4-7 Sept 2023, Napoli, Italy.
21. Lamanna, G., Steinhausen, C., & Weigand, B. (2023). Towards understanding the interplay between atomisation, evaporation and the onset of single phase mixing in transcritical sprays. In Proceedings 19th European Meeting on Supercritical Fluids: 21-24 May 2023, Budapest, Hungary.
22. Ibach, M., Vaikuntanathan, V., Arad, Al., Katoshevski, D., Greenberg, B., & Weigand, B. (2023). Numerical Study of Oscillating Droplets and their Relevance to Grouping in Streams. ILASS-Europe 2023, 32nd Conference on Liquid Atomization and Spray Systems, 4-7 September 2023, Napoli, Italy.
23. Ibach, M., Steigerwald, J., & Weigand, B. (2023). Thixotropic effects in oscillating droplets. 11th International Conference on Multiphase Flow (ICMF), April 2–7, 2023, Kobe, Japan.
24. Härter, J., Steinhausen, C., Poser, R., & Lamanna, G. (2023). Mass transfer measurements of a self-pumping transpiration cooling system. Proceedings 11th International Conference on Multiphase Flow, ICMF 2023: April 2–7 2023, Kobe, Japan.
25. Härter, J., Martínez, D. S., Poser, R., Weigand, B., & Lamanna, G. (2023). Coupling between a turbulent outer flow and an adjacent porous medium : High resolved Particle Image Velocimetry measurements. Physics of Fluids, 35(2), Article 2. https://doi.org/10.1063/5.0132193
26. Hartmann, C., Schweikert, J., Cottier, F., Israel, U., Gier, J., & von Wolfersdorf, J. (2023). Experimental Validation of a Numerical Coupling Environment Applying FEM and CFD. International Journal of Turbomachinery, Propulsion and Power, 8(3), Article 3. https://doi.org/10.3390/ijtpp8030031
27. Gerber, V., Steinhausen, C., Weigand, B., & Lamanna, G. (2023). Investigation of Transcritical Fluid Injections using Polarized Mie Scattering in Structured Illumination. Proceedings 11th International Conference on Multiphase Flow, ICMF 2023: April 2–7 2023, Kobe, Japan.
28. Geppert, A. K., & Weigand, B. (2023). Spreading dynamics during single droplet impact onto a free-standing cubic surface element. 11th International Conference on Multiphase Flow, ICMF 2023, Kobe, Japan, April 2-7, 2023.
29. Geppert, A. K., & Lamanna, G. (2023). Towards spatial and time-resolved film thickness measurements during droplet impact onto thin liquid films. ILASS Europe 2023, 32nd Conference on Liquid Atomization & Spray Systems, 4-7 Sept 2023, Napoli, Italy.
30. Fuhrmann, T., Poser, R., Weigand, B., & Lamanna, G. (2023). Interfacial interaction of a porous periodic topology adjacent to a turbulent fluid flow by highly resolved PIV measurements. Book of Abstracts of 15th Annual International Conference on Porous Media, 333–334.
31. Fuhrmann, T., Poser, R., Weigand, B., & Grazia, L. (2023). Interfacial interaction of a porous periodic topology adjacent to a turbulent fluid flow by highly resolved PIV measurements. Book of Abstracts of 15th Annual International Conference on Porous Media, 333–334.
32. Arad, A., Vaikuntanathan, V., Ibach, M., Katoshevski, D., Greenberg, B., & Weigand, B. (2023). A numerical study of droplet grouping and its potential control using acoustic standing waves. Atomization and Sprays. https://doi.org/10.1615/AtomizSpr.2023047470
33. Anne K. Geppert, B. W. (2023). Spreading dynamics during single droplet impact onto a free-standing cubic surface element. 11th International Conference on Multiphase Flow, ICMF 2023, Kobe, Japan, April 2-7, 2023.
2022
1. Yang, X., Seibold, F., Feng, Z., & Weigand, B. (2022). Effects of blade lean on internal swirl cooling at turbine blade leading edges. International Journal of Heat and Mass Transfer, 194, 123111. https://doi.org/10.1016/j.ijheatmasstransfer.2022.123111
2. Steinhausen, C., Gerber, V., Preusche, A., Dreizler, A., Weigand, B., & Lamanna, G. (2022). Feasibility analysis on transient speed of sound investigations using laser-induced thermal acoustics In evaporating droplets. Proceedings of the International Symposium on the Application of Laser and Imaging Techniques to Fluid Mechanics, 20, 1--12. https://doi.org/10.55037/lxlaser.20th.75
3. Waidmann, C., Poser, R., de Arcos, D. G., Göhring, M., von Wolfersdorf, J., Semmler, K., & Jäppelt, B. (2022, June). Experimental Investigation of Local Heat Transfer in a Rotating Two-Pass Cooling Channel Using the Transient Thermochromic Liquid Crystal (TLC) Technique. Volume 6B: Heat Transfer — General Interest/Additive Manufacturing Impacts on Heat Transfer; Internal Air Systems; Internal Cooling. https://doi.org/10.1115/gt2022-81291
4. de Arcos, D. G., Waidmann, C., Poser, R., von Wolfersdorf, J., & Jäppelt, B. (2022, June). Comparison of Experimental and Numerical Local Rotational Heat Transfer Effects in a Two-Pass Cooling Channel Configuration. Volume 6B: Heat Transfer — General Interest/Additive Manufacturing Impacts on Heat Transfer; Internal Air Systems; Internal Cooling. https://doi.org/10.1115/gt2022-79846
5. Seibold, F., Ligrani, P., & Weigand, B. (2022). Flow and heat transfer in swirl tubes — A review. International Journal of Heat and Mass Transfer, 187, 122455. https://doi.org/10.1016/j.ijheatmasstransfer.2021.122455
6. Krille, T., Poser, R., von Wolfersdorf, J., & Henze, M. (2022). An experimental approach to determine local heat transfer characteristics in additively manufactured cooling configurations. International Journal of Heat and Mass Transfer, 185, 122432. https://doi.org/10.1016/j.ijheatmasstransfer.2021.122432
7. Forster, M., Seibold, F., Krille, T., Waidmann, C., Weigand, B., & Poser, R. (2022). A Monte Carlo approach to evaluate the local measurement uncertainty in transient heat transfer experiments using liquid crystal thermography. Measurement, 190, 110648. https://doi.org/10.1016/j.measurement.2021.110648
8. Yi, T., Chu, X., Wang, B., Wu, J., & Yang, G. (2022). Numerical simulation of single bubble evolution in low gravity with fluctuation. International Communications in Heat and Mass Transfer, 130, 105828. https://doi.org/10.1016/j.icheatmasstransfer.2021.105828
9. Weigand, B., Schulte, K., Dreizler, A., Munz, C.-D., & Tropea, C. (2022). Collaborative Research on Droplet Dynamics Under Extreme Ambient Conditions. In Fluid Mechanics and Its Applications (pp. 1--27). Springer International Publishing. https://doi.org/10.1007/978-3-031-09008-0_1
10. Vaikuntanathan, V., Ibach, M., Arad, A., Chu, X., Katoshevski, D., Greenberg, J. B., & Weigand, B. (2022). An Analytical Study on the Mechanism of Grouping of Droplets. Fluids, 7(5), Article 5. https://doi.org/10.3390/fluids7050172
11. Schulte, K., Tropea, C., & Weigand, B. (Eds.). (2022). Droplet Dynamics Under Extreme Ambient Conditions. Springer International Publishing. https://doi.org/10.1007/978-3-031-09008-0
12. Ren, W., Hu, Y., & Weigand, B. (2022). Splashing During Simultaneous Two Drops Impact Onto A Micropillared Superhydrophilic Surface. ILASS–Europe 2022, 31th Conference on Liquid Atomization and Spray Systems, 6-8 September 2022, Virtual. https://ilass2022.net.technion.ac.il/program/
13. Potyka, J., Stober, J., Wurst, J., Ibach, M., Steigerwald, J., Weigand, B., & Schulte, K. (2022). Towards DNS of Droplet-Jet Collisions of Immiscible Liquids with FS3D. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ’22 (pp. 197–212). Springer Nature Switzerland. https://doi.org/doi.org/10.1007/978-3-031-46870-4_14
14. Potyka, J., Kromer, J., Liu, M., Schulte, K., & Bothe, D. (2022). Modelling and~Numerical Simulation of~Binary Droplet Collisions Under Extreme Conditions. In Fluid Mechanics and Its Applications (pp. 127--147). Springer International Publishing. https://doi.org/10.1007/978-3-031-09008-0_7
15. Palmetshofer, P., Foltyn, P., Geppert, A., & Weigand, B. (2022). Dynamic contact angle measurements of droplets spreading on surfaces of varying wettability. Proceedings of the DIPSI Workshop 2022: Droplet Impact Phenomena & Spray Investigations, Bergamo, Italy, 1st July 2022.
16. Mandler, H., & Weigand, B. (2022). A realizable and scale-consistent data-driven non-linear eddy viscosity modeling framework for arbitrary regression algorithms. International Journal of Heat and Fluid Flow, 97, 109018. https://doi.org/10.1016/j.ijheatfluidflow.2022.109018
17. Mandler, H., & Weigand, B. (2022). On frozen-RANS approaches in data-driven turbulence modeling: Practical relevance of turbulent scale consistency during closure inference and application. International Journal of Heat and Fluid Flow, 97, 109017. https://doi.org/10.1016/j.ijheatfluidflow.2022.109017
18. Lamanna, G., Steinhausen, C., Preusche, A., & Dreizler, A. (2022). Experimental Investigations of Near-critical Fluid Phenomena by the Application of Laser Diagnostic Methods. In K. Schulte, C. Tropea, & B. Weigand (Eds.), Droplet Dynamics Under Extreme Ambient Conditions (pp. 169–188). Springer International Publishing. https://doi.org/10.1007/978-3-031-09008-0_9
19. Lamanna, G., Geppert, A. K., Bernard, R., & Weigand, B. (2022). Drop impact onto wetted walls: an unsteady analytical solution for modelling crown spreading. Journal of Fluid Mechanics, 938, A34. https://doi.org/10.1017/jfm.2022.69
20. Klötzl, D., Krake, T., Zhou, Y., Stober, J., Schulte, K., Hotz, I., Wang, B., & Weiskopf, D. (2022). Reduced Connectivity for Local Bilinear Jacobi Sets.
21. Kloetzl, D., Krake, T., Zhou, Y., Stober, J., Schulte, K., Hotz, I., Wang, B., & Weiskopf, D. (2022). Reduced Connectivity for Local Bilinear Jacobi Setsts.
22. Ibach, M., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, J. B., Schulte, K., & Weigand, B. (2022). Numerical Investigation of Multiple Droplet Streams and the Effect on Grouping Behavior. ILASS-Europe 2022, 31th Conference on Liquid Atomization and Spray Systems, 6-8 September 2022, Tel-Aviv (Virtual).
23. Ibach, M., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, J. B., & Weigand, B. (2022). Investigation of droplet grouping in monodisperse streams by direct numerical simulations. Physics of Fluids, 34(8), Article 8. https://doi.org/10.1063/5.0097551
24. Härter, J., Poser, R., Weigand, B., & Lamanna, G. (2022). Impact of Porous-Media Topology on Turbulent Fluid Flow: Time-Resolved PIV Measurements.
25. Geppert, A. K., Santini, M., Lamanna, G., Cossali, G. E., & Weigand, B. (2022). Scientific Highlights of the International Research Training Group (GRK 2160/2) “Droplet Interaction Technologies” (DROPIT). 31th Conference on Liquid Atomization and Spray Systems, ILASS-Europe 2022, Tel-Aviv (Virtual).
26. Geppert, A. K., Foltyn, P., & Weigand, B. (2022). Effect of edge length and wettability on droplet impact onto a stand-alone cubic pillar. 31th Conference on Liquid Atomization and Spray Systems, ILASS–Europe 2022, Tel-Aviv (Virtual).
27. de Botton, E., Greenberg, J. B., Arad, A., Katoshevski, D., Vaikuntanathan, V., Ibach, M., & Weigand, B. (2022). An investigation of grouping of two falling dissimilar droplets using the homotopy analysis method. Applied Mathematical Modelling, 104, 486–498. https://doi.org/10.1016/j.apm.2021.12.001
28. arXiv preprint arXiv:2208.07148 (Ed.). (2022). Reduced Connectivity for Local Bilinear Jacobi Sets.
29. Arad, A., Vaikuntanathan, V., Ibach, M., Greenberg, J. B., Weigand, B., & Katoshevski, D. (2022). CFD Simulations of Droplet Grouping in Acoustic Standing Waves. ILASS-Europe 2022, 31th Conference on Liquid Atomization and Spray Systems, 6-8 September 2022, Tel-Aviv (Virtual).
2021
1. Ribeiro, D., Foltyn, P., Silva, A., Lamanna, G., & Weigand, B. (2021). The Influence of Wettability on the Droplet Impact onto Micro-Structured Surfaces. 15th International Conference on Liquid Atomization and Spray Systems.
2. Rees, A., Araneo, L., Salzmann, H., Lamanna, G., Sender, J., & Oschwald, M. (2021). Droplet Populations in Flash Boiling Liquid Nitrogen Sprays. 15th International Conference on Liquid Atomization and Spray Systems.
3. Ouedraogo, Y., Gjonaj, E., Gersem, H. D., Steinhausen, C., Lamanna, G., & Weigand, B. (2021). Simulation and Characterization of Transient and Steady State Electrosprays. 15th International Conference on Liquid Atomization and Spray Systems.
4. Foltyn, P., Ribeiro, D., Silva, A., Lamanna, G., & Weigand, B. (2021). Effect of Surface Wettability on the Droplet Impact Morphologies on Dry Smooth Polycarbonate Surfaces. 15th International Conference on Liquid Atomization and Spray Systems.
5. Arad, A., Katoshevski, D., Vaikuntanathan, V., Ibach, M., Greenberg, J. B., & Weigand, B. (2021, December). Longitudinal and Lateral Grouping in Droplet Streams using the Eulerian-Lagrangian Approach.
6. Brack, S., Poser, R., & von Wolfersdorf, J. (2021). Experimental investigation of unsteady convective heat transfer under airflow velocity and temperature variation. Measurement Science and Technology, 33. https://doi.org/10.1088/1361-6501/ac31c9
7. Ren, W., Foltyn, P., Geppert, A., & Weigand, B. (2021). Air entrapment and bubble formation during droplet impact onto a single cubic pillar. Scientific Reports, 11(1), Article 1. https://doi.org/10.1038/s41598-021-97376-3
8. Seibold, F., & Weigand, B. (2021). Numerical analysis of the flow pattern in convergent vortex tubes for cyclone cooling applications. International Journal of Heat and Fluid Flow, 90, 108806. https://doi.org/10.1016/j.ijheatfluidflow.2021.108806
9. Krille, T., Retzko, S., Poser, R., & von Wolfersdorf, J. (2021). Heat Transfer Measurements Using Multiple Thermochromic Liquid Crystals in Symmetric Cooling Channels. Journal of Turbomachinery, 143, 1–22. https://doi.org/10.1115/1.4050436
10. Gerber, V., Baab, S., Förster, F. J., Mandler, H., Weigand, B., & Lamanna, G. (2021). Fluid injection with supercritical reservoir conditions: Overview on morphology and mixing. The Journal of Supercritical Fluids, 169, 105097. https://doi.org/10.1016/j.supflu.2020.105097
11. Yang, G., Liu, J., Chen, X., Wang, Y., Chu, X., Mukherjee, S., Terzis, A., Schneemann, A., Li, W.-J., Wu, J., & others. (2021). Superhydrophilic metal-organic framework thin film for enhancing capillary-driven boiling heat transfer. Journal of Materials Chemistry A.
12. Y. Liu, A. K. Geppert, X. Chu, B. Heine, B. Weigand. (2021). Simulation of an annular liquid jet with a coaxial supersonic gas jet in a medical inhaler. Atomization and Sprays, 31(9), Article 9. https://doi.org/10.1615/AtomizSpr.2021037223
13. Weigand, B., Schulte, K., & Tropea, C. (2021). Selected Results of the Collaborative Research Center “Droplet Dynamics under Extreme Ambient Conditions” SFB-TRR 75. International Conference on Liquid Atomization and Spray Systems (ICLASS).
14. Weigand, B., Lamanna, G., Tonini, S., & Cossali, G. E. (2021). ''Droplet Interaction Technologies" (DROPIT): Selected Results of the International Research Training Group GRK 2160/1. 15th International Conference on Liquid Atomization and Spray Systems.
15. Wang, W., Yang, G., Evrim, C., Terzis, A., Helmig, R., & Chu, X. (2021). An assessment of turbulence transportation near regular and random permeable interfaces. Physics of Fluids, 33(11), Article 11.
16. Wang, W., Chu, X., Lozano-Durán, A., Helmig, R., & Weigand, B. (2021). Information transfer between turbulent boundary layers and porous media. Journal of Fluid Mechanics, 920.
17. Steinhausen, C., Gerber, V., Preusche, A., Weigand, B., Dreizler, A., & Lamanna, G. (2021). On the potential and challenges of laser-induced thermal acoustics for experimental investigation of macroscopic fluid phenomena. Experiments in Fluids, 62(1), Article 1. https://doi.org/10.1007/s00348-020-03088-1
18. Steigerwald, J., Reutzsch, J., Ibach, M., Baggio, M., Seck, A., Haus, B. K., & Weigand, B. (2021). Direct Numerical Simulation of a Wind-Generated Water Wave. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ’19 (pp. 325–341). Springer International Publishing. https://doi.org/10.1007/978-3-030-66792-4_22
19. Steigerwald, J., Ibach, M., Reutzsch, J., & Weigand, B. (2021). Towards the Numerical Determination of the Splashing Threshold of Two-component Drop Film Interactions. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ’20 (pp. 261–279). Springer International Publishing. https://doi.org/10.1007/978-3-030-80602-6_17
20. Steigerwald, J., Geppert, A. K., & Weigand, B. (2021). Numerical study of drop shape effects in binary drop film interactions for different density ratios. 15th Triennial International Conference on Liquid Atomization and Spray Systems, ICLASS 2021, Edinburgh, UK.
21. Sierra-Pallares, J., del Valle, J. G., Bueno, C. M., Castro, F., & Lamanna, G. (2021). High-pressure carbon dioxide-organic solvent mixing layers: Global equilibrium models and the transition to single phase mixing. The Journal of Supercritical Fluids, 169, 105024. https://doi.org/10.1016/j.supflu.2020.105024
22. Potyka, J., & Schulte, K. (2021). New Approaches for the Interface Reconstruction and Surface Force Computation for Volume of Fluid Simulations of Droplet Interaction of Immiscible Liquids. ArXiv Preprint ArXiv:2104.11108.
23. Palmetshofer, P. (2021). Fully coupled numerical simulation of a transpiration cooled rocket thrust chamber with combustion modeling. Universität Stuttgart.
24. Miller, M., Leick, P., Köhler, R., Kuhnhenn, M., Samerski, I., Lamanna, G., & Weigand, B. (2021). Characterization of Internal Flow Conditions in GDI Injectors by Means of Spray-Hole-Individual Mass Flow Rate and Momentum Flux Measurements. 15th International Conference on Liquid Atomization and Spray Systems.
25. Liu, Y., Geppert, A., Chu, X., Heine, B., & Weigand, B. (2021). Simulation of an annular liquid jet with a coaxial supersonic gas jet in a medical inhaler. Atomization and Sprays, 31(9), Article 9.
26. Liu, Y., Geppert, A. K., Chu, X., & Weigand, B. (2021). Simulation of an annular liquid jet with a coaxial supersonic gas jet in a medical inhalter. Atomization and Sprays, 31(9), Article 9. https://doi.org/10.1615/AtomizSpr.2021037223
27. Kromer, J., Potyka, J., Schulte, K., & Bothe, D. (2021). Efficient three-material PLIC interface positioning on unstructured polyhedral meshes. ArXiv Preprint ArXiv:2105.08972.
28. Ibach, M., Schulte, K., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, J. B., & Weigand, B. (2021). Direct Numerical Simulations of Grouping Effects in Droplet Streams Using Different Boundary Conditions. ICLASS 2021, 15th Triennial International Conference on Liquid Atomization and Spray Systems, Edinburgh, UK, 29 Aug.-2 Sept. 2021.
29. Ibach, M., Schulte, K., Vaikuntanathan, V., Arad, A., Katoshevski, D., Greenberg, B., & Weigand, B. (2021). Direct Numerical Simulations of Grouping Effects in Droplet Streams Using Different Boundary Conditions. International Conference on Liquid Atomization and Spray Systems (ICLASS), 1(1), Article 1.
30. Gopal, J. V. M., Tretola, G., Morgan, R., de Sercey, G., Lamanna, G., & Vogiatzaki, K. (2021). Unpicking the interplay of turbulence, diffusion, and thermophysics in cryogenic jets at supercritical pressures. Physics of Fluids, 33(7), Article 7. https://doi.org/10.1063/5.0056509
31. Gerber, V., Baab, S., Förster, F. J., Mandler, H., Weigand, B., & Lamanna, G. (2021). Fluid injection with supercritical reservoir conditions: Overview on morphology and mixing. The Journal of Supercritical Fluids, 169, 105097. https://doi.org/10.1016/j.supflu.2020.105097
32. Föll, F., Gerber, V., Munz, C.-D., Weigand, B., & Lamanna, G. (2021). On the Consideration of Diffusive Fluxes Within High-Pressure Injections. In N. A. Adams, W. Schröder, R. Radespiel, O. J. Haidn, T. Sattelmayer, C. Stemmer, & B. Weigand (Eds.), Future Space-Transport-System Components under High Thermal and Mechanical Loads: Results from the DFG Collaborative Research Center TRR40 (pp. 195--208). Springer International Publishing. https://doi.org/10.1007/978-3-030-53847-7_12
33. Forster, M., & Weigand, B. (2021). Experimental and numerical investigation of jet impingement cooling onto a concave leading edge of a generic gas turbine blade. International Journal of Thermal Sciences, 164, 106862. https://doi.org/10.1016/j.ijthermalsci.2021.106862
34. Foltyn, P., Ribeiro, D., Silva, A., Lamanna, G., & Weigand, B. (2021). Influence of wetting behavior on the morphology of droplet impacts onto dry smooth surfaces. Physics of Fluids, 33(6), Article 6. https://doi.org/10.1063/5.0053539
35. Foltyn, P., Restle, F., Wissmann, M., Hengsbach, S., & Weigand, B. (2021). The Effect of Patterned Micro-Structure on the Apparent Contact Angle and Three-Dimensional Contact Line. Fluids, 6(2), Article 2. https://doi.org/10.3390/fluids6020092
36. Foltyn, P., Rihm, L. K., Ribeiro, D., Silva, A., & Weigand, B. (2021). Measurement of the lamella thickness during droplet impact onto differently wettable smooth surfaces using an extension of the LASER Pattern Shift Method with naturally occurring patterns. Review of Scientific Instruments, 92(10), Article 10. https://doi.org/10.1063/5.0060407
37. Evrim, C., Chu, X., Silber, F. E., Isaev, A., Weihe, S., & Laurien, E. (2021). Flow features and thermal stress evaluation in turbulent mixing flows. International Journal of Heat and Mass Transfer, 178, 121605.
38. Chu, X., Wang, W., Yang, G., Terzis, A., Helmig, R., & Weigand, B. (2021). Transport of turbulence across permeable interface in a turbulent channel flow: interface-resolved direct numerical simulation. Transport in Porous Media, 136(1), Article 1.
39. Bernard, R., Baumgartner, D., Brenn, G., Planchette, C., Weigand, B., & Lamanna, G. (2021). Miscibility and wettability: how interfacial tension influences droplet impact onto thin wall films. Journal of Fluid Mechanics, 908, A36. https://doi.org/10.1017/jfm.2020.944
2020
1. McEligot, D. M., Chu, X., Bae, J. H., Laurien, E., & Yoo, J. Y. (2020). Some observations concerning “laminarization” in heated vertical tubes. International Journal of Heat and Mass Transfer, 163, 120101. https://doi.org/10.1016/j.ijheatmasstransfer.2020.120101
2. Foltyn, P., Schlottke, A., & Weigand, B. (2020). Effect of plasma activation on the contact angle of smooth polymer surfaces and its long-term durability in ambient air. 10th International Colloids Conference, 7-9 December 2020 (Online) Palma de Mallorca, Spain, 10.
3. Chu, X., Wang, W., Yang, G., Terzis, A., Helmig, R., & Weigand, B. (2020). Transport of Turbulence Across Permeable Interface in a Turbulent Channel Flow: Interface-Resolved Direct Numerical Simulation. Transport in Porous Media. https://doi.org/10.1007/s11242-020-01506-w
4. Pandey, S., Chu, X., Weigand, B., Laurien, E., & Schumacher, J. (2020). Relaminarized and recovered turbulence under nonuniform body forces. Phys. Rev. Fluids, 5(10), Article 10. https://doi.org/10.1103/PhysRevFluids.5.104604
5. Bernard, R., Vaikuntanathan, V., Weigand, B., & Lamanna, G. (2020). On the crown rim expansion kinematics during droplet impact on wall-films. Experimental Thermal and Fluid Science, 118, 110168. https://doi.org/10.1016/j.expthermflusci.2020.110168
6. Seibold, F., Schwab, A., Dubois, V., Poser, R., Weigand, B., & von Wolfersdorf, J. (2020, September). CONDUCTION AND INERTIA CORRECTION FOR TRANSIENT THERMOCOUPLE MEASUREMENTS. PART I: ANALYTICAL AND NUMERICAL MODELLING.
7. Ren, W., Reutzsch, J., & Weigand, B. (2020). Direct Numerical Simulation of Water Droplets in Turbulent Flow. Fluids, 5(3), Article 3. https://doi.org/10.3390/fluids5030158
8. Miller, M., Kuhnhenn, M., Samerski, I., Lamanna, G., & Weigand, B. (2020, September). Evaluation of Geometry-Dependent Spray Hole Individual Mass Flow Rates of Multi-Hole High-Pressure GDI-Injectors Utilizing a Novel Measurement Setup. The 2020 SAE International Powertrains, Fuels & Lubricants Meeting.
9. Krille, T., Retzko, S., Poser, R., & von Wolfersdorf, J. (2020, September). Heat Transfer Measurements Using Multiple Thermochromic Liquid Crystals in Symmetric Cooling Channels. https://doi.org/10.1115/GT2020-16271
10. Evrim, C., Chu, X., & Laurien, E. (2020). Analysis of thermal mixing characteristics in different T-junction configurations. International Journal of Heat and Mass Transfer, 158, 120019. https://doi.org/10.1016/j.ijheatmasstransfer.2020.120019
11. Chu, X., Liu, Y., Wang, W., Yang, G., Weigand, B., & Nemati, H. (2020). Turbulence, pseudo-turbulence, and local flow topology in dispersed bubbly flow. Physics of Fluids, 32(8), Article 8. https://doi.org/10.1063/5.0014833
12. Reutzsch, J., Kieffer-Roth, C., & Weigand, B. (2020). A consistent method for direct numerical simulation of droplet evaporation. Journal of Computational Physics, 413, 109455. https://doi.org/10.1016/j.jcp.2020.109455
13. Bernard, R. A. R. (2020). Macro and micro dynamics of droplet impact onto wall-films made of different liquids.
14. Seck, A., Geist, S., Harbeck, J., Weigand, B., & Joos, F. (2020). Evaporation Modeling of Water Droplets in a Transonic Compressor Cascade Under Fogging Conditions. International Journal of Turbomachinery, Propulsion and Power, 5(1), Article 1. https://www.mdpi.com/2504-186X/5/1/5/pdf
15. Chen, L., Brakmann, R., Weigand, B., Poser, R., & Yang, Q. (2020). Detailed investigation of staggered jet impingement array cooling performance with cubic micro pin fin roughened target plate. Applied Thermal Engineering, 171, 115095. https://doi.org/10.1016/j.applthermaleng.2020.115095
16. You, Y., Seibold, F., Wang, S., Weigand, B., & Gross, U. (2020). URANS of turbulent flow and heat transfer in divergent swirl tubes using the k-ω SST turbulence model with curvature correction. International Journal of Heat and Mass Transfer, 159, 120088. https://doi.org/10.1016/j.ijheatmasstransfer.2020.120088
17. Vaikuntanathan, V., Bernard, R., Lamanna, G., & Weigand, B. (2020). Droplet Interactions and Spray Processes. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Fluid Mechanics and Its Applications (Vol. 121, pp. 215--223). Springer International Publishing.
18. Stierle, R., Waibel, C., Groß, J., Steinhausen, C., Weigand, B., & Lamanna, G. (2020). On the selection of boundary conditions for droplet evaporation and condensation at high pressure and temperature conditions from interfacial transport resistivities. International Journal Heat and Mass Transfer, 151, 119450. https://doi.org/10.1016/j.ijheatmasstransfer.2020.119450
19. Steigerwald, J., Reutzsch, J., Ibach, M., Baggio, M., Seck, A., Haus, B., & Weigand, B. (2020). Direct Numerical Simulation of a Wind-generated Water Wave. High Performance Computing in Science and Engineering ’19.
20. Steigerwald, J., Ibach, M., Reutzsch, J., & Weigand, B. (2020). Towards the Numerical Determination of the Splashing Threshold of Two-component Drop Film Interactions. In High Performance Computing in Science and Engineering ’20. Springer.
21. Seibold, F., Schwab, A., Dubois, V., Poser, R., Weigand, B., & von Wolfersdorf, J. (2020). Conduction and Inertia Correction for Transient Thermocouple Measurements. Part I: Analytical and Numerical Modeling. XXV Biennial Symposium on Measuring Techniques in Turbomachinery.
22. Schulte, K., Weigand, B., & Tropea, C. (2020). Selected results of the collaborative research center ?Droplet dynamics under extreme ambient conditions? SFB-TRR 75. ICLASS 2018 - 14th International Conference on Liquid Atomization and Spray Systems.
23. Schlottke, K., Reutzsch, J., Kieffer-Roth, C., & Weigand, B. (2020). Direct Numerical Simulations of Evaporating Droplets at Higher Temperatures: Application of a Consistent Numerical Approach. Droplet Interactions and Spray Processes, 287–299.
24. Rees, A., Araneo, L., Salzmann, H., Lamanna, G., Sender, J., & Oschwald, M. (2020). Droplet velocity and diameter distributions in flash boiling liquid nitrogen jets by means of phase Doppler diagnostics. Experiments in Fluids, 61, 182. https://doi.org/10.1007/s00348-020-03020-7
25. Preusche, A., Dreizler, A., Steinhausen, C., Lamanna, G., & Stierle, R. (2020). Non-invasive, spatially averaged temperature measurements of falling acetone droplets in nitrogen atmosphere at elevated pressures and temperatures. The Journal of Supercritical Fluids, 166, 105025. https://doi.org/10.1016/j.supflu.2020.105025
26. Loureiro, D., Reutzsch, J., Kronenburg, A., Weigand, B., & Vogiatzaki, K. (2020). Towards full resolution of spray break-up in flash atomization conditions using DNS. High Performance Computing in Science and Engineering ’19.
27. Loureiro, D. D., Reutzsch, J., Kronenburg, A., Weigand, B., & Vogiatzaki, K. (2020). Primary breakup regimes for cryogenic flash atomization. International Journal of Multiphase Flow, 132, 103405. https://doi.org/10.1016/j.ijmultiphaseflow.2020.103405
28. Lamanna, G., Steinhausen, C., & Weigand, B. (2020). Droplet Interactions and Spray Processes. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Fluid Mechanics and Its Applications (Vol. 121). Springer International Publishing.
29. Lamanna, G., Steinhausen, C., & Weigand, B. (2020). On the Importance of Kinetic Effects in the Modelling of Droplet Evaporation at High Pressure and Temperature Conditions. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Droplet Interactions and Spray Processes (pp. 277--286). Springer International Publishing.
30. Lamanna, G., Steinhausen, C., Weckenmann, F., Weigand, B., Bork, B., Preusche, A., Dreizler, A., Stierle, R., & Gross, J. (2020). Laboratory Experiments of High-Pressure Fluid Drops. In J. Bellan (Ed.), High-Pressure Flows for Propulsion Applications (pp. 49--109). AAIA Progress Series. https://doi.org/10.2514/5.9781624105814.0049.0110
31. Lamanna, G., Steinhausen, C., Weckenmann, F., Weigand, B., Bork, B., Preusche, A., Dreizler, A., Stierle, R., & Gross, J. (2020). Laboratory Experiments of High-Pressure Fluid Drops: Chapter 2. American Institute of Aeronautics and Astronautics (Hg.) -- High-Pressure Flows for Propulsion Applications, 49--109. https://doi.org/10.2514/5.9781624105814.0049.0110
32. Lamanna, G., Cossali, G. E., & Tonini, S. (2020). Droplet Interactions and Spray Processes. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Fluid Mechanics and Its Applications (Vol. 121, pp. 259--276). Springer International Publishing.
33. Gärtner, J. W., Kronenburg, A., Rees, A., Sender, J., Oschwald, M., & Lamanna, G. (2020). Numerical and experimental analysis of flashing cryogenic nitrogen. International Journal of Multiphase Flow, 130, 103360. https://doi.org/10.1016/j.ijmultiphaseflow.2020.103360
34. Gerber, V., Baab, S., Weigand, B., & Lamanna, G. (2020). Enhanced Rayleigh scattering in supercritical fluid injection across the Widom line, Atomization and Sprays. Atomization and Sprays, 30(12), Article 12. https://doi.org/10.1615/AtomizSpr.2020035322
35. Geppert, A., Bernard, R., Weigand, B., & Lamanna, G. (2020). Droplet Interactions and Spray Processes. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Fluid Mechanics and Its Applications (Vol. 121, pp. 177--190). Springer International Publishing.
36. Geppert, A., Bernard, R., Weigand, B., & Lamanna, G. (2020). Analytical Model for Crown Spreading During Drop Impact onto Wetted Walls: Effect of Liquids Viscosity on Momentum Transfer. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Droplet Interactions and Spray Processes. Fluid Mechanics and Its Applications, vol. 121 (Vol. 121, pp. 177–190). Springer, Cham. https://doi.org/10.1007/978-3-030-33338-6_14
37. Foltyn, P., Guttmann, M., Schneider, M., Fest-Santini, S., Wildenschild, D., & Weigand, B. (2020). Fabrication and Evaluation Methods of Micro-structured Surfaces for Droplet Impact Experiments. In G. Lamanna, S. Tonini, G. E. Cossali, & B. Weigand (Eds.), Droplet Interactions and Spray Processes (Vol. 121, pp. 71--86). Springer International Publishing.
38. Bernard, R., Vaikuntanathan, V., Lamanna, G., & Weigand, B. (2020). A New Perspective for the Characterization of Crown Rim Kinematics. In G. Lamanna, S. Tonini, G. Cossali, & B. Weigand (Eds.), Droplet Interactions and Spray Processes. Fluid Mechanics and Its Applications (Vol. 121, pp. 163–175). Springer, Cham. https://doi.org/10.1007/978-3-030-33338-6_13
39. Baumgartner, D., Bernard, R., Weigand, B., Lamanna, G., Brenn, G., & Planchette, C. (2020). Influence of liquid miscibility and wettability on the structures produced by drop–jet collisions. Journal of Fluid Mechanics, 885, A23. https://doi.org/10.1017/jfm.2019.967
2019
1. Steinhausen, C., Reutsch, J., Lamanna, G., Weigand, B., Stierle, R., Gross, J., Preusche, A., Bork, B., & Dreizler, A. (2019). Droplet evaporation at high pressure and temperature conditions: A comparison of experimental estimations and direct numerical simulations. 29th European Conference on Liquid Atomization and Spray Systems.
2. Rees, A., Araneo, L., Salzmann, H., Kurudzija, E., Suslov, D., Lamanna, G., Sender, J., & Oschwald, M. (2019). Investigation of Velocity and Droplet Size Distributions of Flash Boiling LN2-Jets With Phase Doppler Anemometry. 29th European Conference on Liquid Atomization and Spray Systems.
3. Cossali, G. E., Weigand, B., Lamanna, G., & Tonini, S. (2019). The International Research Training Group “Droplet Interaction Technologies” (DROPIT): Selected Results. 29th European Conference on Liquid Atomization and Spray Systems.
4. Prokein, D., Dittert, C., Böhrk, H., & von Wolfersdorf, J. (2019). Numerical simulation of transpiration cooling experiments in supersonic flow using OpenFOAM. CEAS Space Journal. https://doi.org/10.1007/s12567-019-00292-6
5. Chen, L., Brakmann, R., Weigand, B., Crawford, M., & Poser, R. (2019). Detailed heat transfer investigation of an impingement jet array with large jet-to-jet distance. International Journal of Thermal Sciences, 146, 106058. https://doi.org/10.1016/j.ijthermalsci.2019.106058
6. Forster, M., Poser, R., Rodriguez, J., Starke, A., & Weigand, B. (2019, November). Experimental heat transfer study of jets impinging on a curved surface.
7. Baggio, M., & Weigand, B. (2019). Numerical simulation of a drop impact on a superhydrophobic surface with a wire. Physics of Fluids, 31(11), Article 11. https://doi.org/10.1063/1.5123593
8. G. Lamanna, A. Geppert, B. W. (2019, September). On the effect of a thin liquid film on the crown propagation in drop impact studies. 29th European Conference on Liquid Atomization and Spray Systems.
9. Foltyn, P., Roth, N., & Weigand, B. (2019). Development and calibration of the LASER Pattern Shift Method for measuring the lamella topology during drop impact on walls. 29th European Conference on Liquid Atomization and Spray Systems, 29.
10. Chu, X., Wu, Y., Rist, U., & Weigand, B. (2019, September). Spatial Evolution of Transition Inside Porous Media.
11. Foltyn, P., Roth, N., & Weigand, B. (2019). Verfahren zur Messung der Schichtdicke einer optisch transparenten Schicht, insbesondere einer Flüssigkeitsschicht2 (No. Patent No. 19 192 074.3). Patent No. 19 192 074.3, Article Patent No. 19 192 074.3.
12. Foltyn, P., Roth, N., & Weigand, B. (2019). Verfahren zur Messung der Schichtdicke einer optisch transparenten Schicht, insbesondere einer Flüssigkeitsschicht (Patent No. 19 192 074.3). In Verfahren zur Messung der Schichtdicke einer optisch transparenten Schicht, insbesondere einer Flüssigkeitsschicht (No. 19 192 074.3).
13. Brakmann, R., Chen, L., Poser, R., Rodriguez, J., Crawford, M., & Weigand, B. (2019). Heat transfer investigation of an array of jets impinging on a target plate with detached ribs. International Journal of Heat and Fluid Flow, 78, 108420. https://doi.org/10.1016/j.ijheatfluidflow.2019.05.009
14. Traxinger, C., Pfitzner, M., Baab, S., Lamanna, G., & Weigand, B. (2019). Experimental and numerical investigation of phase separation due to multicomponent mixing at high-pressure conditions. Phys. Rev. Fluids, 4(7), Article 7. https://doi.org/10.1103/PhysRevFluids.4.074303
15. Schegk, G., Foltyn, P., Li, W.-J., A.Terzis, & B.Weigand. (2019). Oxygen and Hydrogen Plasma Activation Effects on Capillary Thermodynamics in Fibrous Materials. 9th International Colloids Conference, 16-19 June 2019 Sitges, Spain, 9.
16. Reutzsch, J., Ertl, M., Baggio, M., Seck, A., & Weigand, B. (2019). Towards a Direct Numerical Simulation of Primary Jet Breakup with Evaporation. In W. E. Nagel, D. H. Kröner, & R. M. M. (Eds.), High Performance Computing in Science and Engineering ’18 (pp. 243–257). Springer. https://doi.org/10.1007/978-3-030-13325-2_15
17. Loureiro, D., Reutzsch, J., Kronenburg, A., Weigand, B., & Vogiatzaki, K. (2019, June). Resolving breakup in flash atomization conditions using DNS. Proceedings ICMF 2019. 10th International Conference on Multiphase Flow.
18. Chu, X., Wu, Y., Rist, W., & Weigand, B. (2019, June). Spatial Evolution of Transition Inside Porous Media.
19. Chu, X., Wu, Y., Rist, U., & Weigand, B. (2019, June). Transitional Flow in Elementary Porous Media. 12nd Direct and Large Eddy Simulation.
20. Weigand, B., Chu, X., Yang, G., & Helmig, R. (2019, May). Turbulence topology in regular porous media: a microscopic analysis with direct numerical simulation.
21. C. Steinhausen, G. L., B. Weigand, R. S., J. Gross, A. P., & Dreizler, A. (2019). On the influence of evaporation on the mixture formation of high pressure combustion. 10th International Conference on Multiphase Flow, 19-- 24.
22. Terzis, A., Kirsch, M., Vaikuntanathan, V., Geppert, A., Lamanna, G., & Weigand, B. (2019). Splashing characteristics of diesel exhaust fluid (AdBlue) droplets impacting on urea-water solution films. Experimental Thermal and Fluid Science, 102, 152--162. https://doi.org/10.1016/j.expthermflusci.2018.11.002
23. Chu, X., Yang, G., Pandey, S., & Weigand, B. (2019). Direct numerical simulation of convective heat transfer in porous media. International Journal of Heat and Mass Transfer, 133, 11--20. https://doi.org/10.1016/j.ijheatmasstransfer.2018.11.172
24. Yang, G., Vaikuntanathan, V., Terzis, A., Cheng, X., Weigand, B., & Helmig, R. (2019). Impact of a Linear Array of Hydrophilic and Superhydrophobic Spheres on a Deep Water Pool. Colloids Interfaces, 3(1), Article 1. https://doi.org/10.3390/colloids3010029
25. Steurer, A., Poser, R., von Wolfersdorf, J., & Retzko, S. (2019). Application of the Transient Heat Transfer Measurement Technique Using Thermochromic Liquid Crystals in a Network Configuration with Intersecting Circular Passages. Journal of Turbomachinery 2019, 141(5), Article 5. https://doi.org/10.1115/1.4041807
26. Richter, J., Beuting, M., Schulz, C., & Weigand, B. (2019). Mixing processes in the transonic, accelerated wake of a central injector. Physics of Fluids, 31(1), Article 1. https://doi.org/10.1063/1.5055749
27. Uddin, N., Weigand, B., & Younis, B. A. (2019). Comparative study on heat transfer enhancement by turbulent impinging jet under conditions of swirl, active excitations and passive excitations. Int. Comm. Heat Mass Transfer, Vol. 100, Pp. 35-41.
28. Terzis, A., Zarikos, I., Weishaupt, K., Yang, G., Chu, X., Helmig, R., & Weigand, B. (2019). Microscopic velocity field measurements inside a regular porous medium adjacent to a low Reynolds number channel flow. Physics of Fluids, 31, 042001.
29. Steurer, A., & von Wolfersdorf, J. (2019). Untersuchung der lokalen Wärmeübergangseigenschaften komplexer Kühlungsstrukturen durch Kombinationen experimenteller und numerischer Methoden. Schlussbericht AG Turbo COOREFLEX-turbo 3.2.4.
30. Steinhausen, C., Reutzsch, J., Lamanna, G., Weigand, B., Stierle, R., Gross, J., Preusche, A., & Dreizler, A. (2019). Droplet Evaporation under High Pressure and Temperature Conditions: A Comparison of Experimental Estimations and Direct Numerical Simulations. Proceedings ILASS–Europe 2019. 29th Conference on Liquid Atomization and Spray Systems.
31. Steinhausen, C., Reutzsch, J., Lamanna, G., Weigand, B., Stierle, R., Gross, J., Preusche, A., & Dreizler, A. (2019). Droplet Evaporation under High Pressure and Temperature Conditions: A Comparison of Droplet Evaporation under High Pressure and Temperature Conditions: A Comparison of Experimental Estimations and Direct Numerical Simulations. Proceedings ILASS--Europe 2019, 29th Conference on Liquid Atomization and Spray Systems: 2-4 September 2019, Paris, France.
32. Steinhausen, C., Lamanna, G., Weigand, B., Stierle, R., Gross, J., Preusche, A., Dreizler, A., & Sierra-Pallares, J. (2019). On the influence of evaporation on the mixture formation of high pressure combustion. Proceedings ICMF 2019, 10th International Conference on Multiphase Flow: May 19 -- 24, 2019, Rio de Janeiro, Brazil.
33. Steigerwald, J., Reutzsch, J., Ibach, M., Baggio, M., Seck, A., Haus, B. K., & Weigand, B. (2019). Direct Numerical Simulation of a Wind-generated Water Wave. In High Performance Computing in Science and Engineering ’19. Springer.
34. Sotgiu, C., Weigand, B., Semmler, K., & Wellinger, P. (2019). Towards a general data-driven explicit algebraic Reynolds stress prediction framework. International Journal of Heat and Fluid Flow, 79, 108454. https://doi.org/10.1016/j.ijheatfluidflow.2019.108454
35. Seibold, F., Weigand, B., Marsik, F., & Novotny, P. (2019). Thermodynamic Stability Condition of Swirling Flows in Convergent Vortex Tubes. Proceedings of the International Gas Turbine Congress 2019 Tokyo.
36. Seck, A., & Weigand, B. (2019). NUMERICAL MODELLING OF THE TRANSITION FROM A CLOSED WALL FILM TO DISCRETE LIQUID RIVULETS. 29th European Conference on Liquid Atomization and Spray Systems, Sorbonne University, Paris, France. https://ilass19.sciencesconf.org/245799/document
37. Seck, A., Geist, S., Harbeck, J., Weigand, B., & Joos, F. (2019). EVAPORATION MODELLING OF WATER DROPLETS IN A TRANSONIC COMPRESSOR CASCADE UNDER FOGGING CONDITIONS. European Turbomachinery Conference, EPFL, Lausanne, Switzerland. https://www.euroturbo.eu/paper/ETC2019-136.pdf
38. Schulte, K., Weigand, B., & Tropea, C. (2019). Selected Results of the Collaborative Research Center" Droplet Dynamics under Extreme Ambient Conditions" SFB-TRR 75. Ilass Europe. 29th European Conference on Liquid Atomization and Spray Systems.
39. Schindler, A., Younis, B. A., & Weigand, B. (2019). Large-Eddy Simulations of Turbulent Flow Through a Heated Square Duct. International Journal of Thermal Sciences, 135, 302–318. https://doi.org/10.1016/j.ijthermalsci.2018.09.018
40. Schindler, A., Brack, S., & von Wolfersdorf, J. (2019). Coupled FE-CFD Analysis of Transient Conjugate Heat Transfer. 13th European Conference on Turbomachinery Fluid dynamics & Thermodynamics, Lausanne, Switzerland. https://www.euroturbo.eu/publications/proceedings-papers/etc2019-158/
41. Reutzsch, J., Raja Kochanattu, G. V., Ibach, M., Kieffer-Roth, C., Tonini, S., Cossali, G. E., & Weigand, B. (2019). Direct Numerical Simulations of Oscillating Liquid Droplets: a Method to Extract Shape Characteristics. In ILASS-Europe 2019, 29th Conference on Liquid Atomization and Spray Systems: Vol. Paris, France.
42. Reitzle, M., Ruberto, S., Stierle, R., Gross, J., Janzen, T., & Weigand, B. (2019). Direct numerical simulation of sublimating ice particles. International Journal of Thermal Sciences, 145. https://doi.org/10.1016/j.ijthermalsci.2019.05.009
43. Prokein, D., & von Wolfersdorf, J. (2019). Numerical Simulation of Turbulent Boundary Layers with Foreign Gas Transpiration using OpenFOAM. Acta Astronautica, 158, 253--263. https://doi.org/10.1016/j.actaastro.2019.03.030
44. Mehmood, A., Usman, M., & Weigand, B. (2019). Heat and mass transfer phenomena due to a rotating non-isothermal wavy disk. Int. J. Heat Mass Transfer, Vol. 129, Pp. 96-102.
45. Liu, Y., Rao, Y., & Weigand, B. (2019). Heat transfer and pressure loss characteristics in a swirl cooling tube with dimples on the tube inner surface. Int. J. Heat Mass Transfer, Vol. 128, Pp. 54-65.
46. Lamanna, G., Geppert, A., & Weigand, B. (2019). On the effect of a thin liquid film on the crown propagation in drop impact studies. ILASS-Europe 2019, 29th Conference on Liquid Atomization and Spray Systems, Paris, France.
47. Geppert, A. K. (2019). Experimental investigation of droplet wall-film interaction of binary systems [Dissertation]. In Thermodynamik. Verlag Dr. Hut.
48. Frąckowiak, A., Wolfersdorf, J. V., & Ciałkowski, M. (2019). Optimization of cooling of gas turbine blades with channels filled with porous material. International Journal of Thermal Sciences, 136, 370–378. https://doi.org/10.1016/j.ijthermalsci.2018.09.005
49. Foltyn, P., Restle, F., & Weigand, B. (2019). 360° Evaluation of Projected Contact Angles of Static Droplets on Structured Surfaces. Droplet Impact Phenomena & Spray Investigations (DIPSI), Bergamo, Italy, 13. https://doi.org/10.6092/DIPSI2019
50. Baggio, M., & Weigand, B. (2019). Direct numerical simulations for drop impact on superhydrophobic patterned surfaces using the VoF method.
51. A., Terzis., Zarikos, I., Weishaupt, K., Yang, G., Chu, X., Helmig, R., & Weigand, B. (2019). Microscopic velocity field measurements inside a regular porous medium adjacent to a low Reynolds number channel flow. Physics of Fluids, 31, 042001.
2018
1. Palmetshofer, P., Steinhausen, C., Preusche, A., Dreizler, A., Weigand, B., & Lamanna, G. (2018, July). Comparison of diffusion models for application in low- to high-pressure droplet evaporation problems. ID 81, ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
2. Loureiro, D., Reutzsch, J., Dietzel, D., Kronenburg, A., Weigand, B., & Vogiatzaki, K. (2018, July). DNS of Multiple Bubble Growth and Droplet Formation in Superheated Liquids. Proceedings ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
3. Lamanna, G., Tonini, S., Weigand, B., & Cossali, G. E. (2018, July). Selected results of the International Research Training Group “Droplet Interaction Technologies” (DROPIT). ID 37, ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
4. Kaufmann, J., Geppert, A., Ertl, M., Bernard, R., Vaikuntanathan, V., Lamanna, G., & Weigand, B. (2018, July). Direct numerical simulations of one- and two-component droplet wall-film interactions within the crown-type splashing regime. ID 266, ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
5. Bernard, R., Geppert, A., Vaikuntanathan, V., Lamanna, G., & Weigand, B. (2018, July). On the scaling of crown rim diameter during droplet Impact on thin wall-films. ID 16, ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
6. Richter, J., Beuting, M., Schulz, C., & Weigand, B. (2018, June). Numerical Investigation of Transonic Mixing Behavior in the Wake of a Central Injector at different Reynolds numbers. 2018 Fluid Dynamics Conference. https://doi.org/10.2514/6.2018-3544
7. Goehring, M., Hartmann, C., & von Wolfersdorf, J. (2018, June). Numerical Investigation of Transient Heat Transfer Experiments Under Rotation. Volume 5A: Heat Transfer. https://doi.org/10.1115/gt2018-76497
8. Chu, X., Weigand, B., & Vaikuntanathan, V. (2018). Flow turbulence topology in regular porous media: From macroscopic to microscopic scale with direct numerical simulation. Physics of Fluids, 30(6), Article 6. https://doi.org/10.1063/1.5030651
9. Beuting, M., Richter, J., Weigand, B., & Schulz, C. (2018, June). Experimental Investigation of the Influence of the Pressure Gradient on the Transonic Mixing Behavior in Blunt-Body Wakes using Tracer LIF. 2018 Fluid Dynamics Conference. https://doi.org/10.2514/6.2018-3543
10. Beuting, M., Richter, J., Weigand, B., Dreier, T., & Schulz, C. (2018). Application of toluene LIF to transonic nozzle flows to identify zones of incomplete molecular mixing. Opt. Express, 26(8), Article 8. https://doi.org/10.1364/OE.26.010266
11. Richter, J., Mayer, J., & Weigand, B. (2018). Accuracy of non-resonant laser-induced thermal acoustics (LITA) in a convergent--divergent nozzle flow. Applied Physics B, 124(2), Article 2. https://doi.org/10.1007/s00340-017-6885-6
12. Zarikos, I., Terzis, A., Hassanizadeh, S. M., & Weigand, B. (2018). Velocity distributions in trapped and mobilized non-wetting phase ganglia in porous media. Scientific Reports, Pp. 1-11.
13. Yang, G. andWeigand, B. (2018). Investigation of the Klinkenberg effect in a micro/nanoporous medium by direct simulation Monte Carlo method. Physical Review Fluids, Vol. 3, 044201.
14. Yang, G., Weigand, B., Terzis, A., Weishaupt, K., & Helmig, R. (2018). Numerical Simulation of Turbulent Flow and Heat Transfer in a Three-Dimensional Channel Coupled with Flow Through Porous Structures.
15. Winkler, S., Weigand, B., & Ligrani, P. (2018). Flow structure and surface heat transfer from a turbine component endwall using the ice formation method. Int. J. Heat Mass Transfer, Vol. 120, Pp. 895-908.
16. Waidmann, C., Poser, R., Göhring, M., & von Wolfersdorf, J. (2018). First operation of a rotating test rig for transient thermochromic liquid crystal heat transfer experiments. XXIV Biennial Symposium on Measuring Techniques in Turbomachinery. http://www.meastechturbo.com/index.php/paper-archives/2418-prague-2018/item/download/447_95219c958cce1522347aee1175289a4b
17. Terzis, A., Yang, G., Zarikos, I., Elizalde, E., Weigand, B., Kalfas, A., & Ding, X. (2018). A temperature‑based diagnostic approach for paper‑based microfluidics. Microfluidics and Nanofluidics, Vol. 22:35, Pp. 1-6.
18. Terzis, A., Sauer, E., Yang, G., Groß, J., & Weigand, B. (2018). Characterisation of acid–base surface free energy components of urea–water Solutions. Colloids and Surfaces A, Vol. 538, Pp. 774-780.
19. Steurer, A., Poser, R., von Wolfersdorf, J., & Retzko, S. (2018). Application of the Transient Heat Transfer Measurement Technique Using TLC in a Network Configuration with Intersecting Circular Passages.
20. Steigerwald, J., Geppert, A., Ertl, M., Bernard, R., Vaikuntanathan, V., Lamanna, G., & Weigand, B. (2018). Direct Numerical Simulation of One- and Two-Component Droplet Wall-Film Interactions within the Crown-Type Splashing Regime. ICLASS 2018, 14th Triennal International Conference on Liquid Atomization and Spray Systems, Chicago, IL, USA.
21. Sotgiu, C., Weigand, B., & Semmler, K. (2018). A turbulent heat flux prediction framework based on tensor representation theory and machine learning. Int. Comm. Heat Mass Transfer, Vol. 95, Pp. 74-79.
22. Schulte, K., Weigand, B., & Tropea, C. (2018). Selected Results of the Collaborative Research Center “Droplet Dynamics under Extreme Ambient Conditions SFB-TRR 75.” ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems.
23. Schulte, K., & Weigand, B. (2018). On the analytical modelling of the initial ice growth in a supercooled liquid droplet. International Journal of Heat and Mass Transfer, 127, 1070–1081.
24. Schmid, J., Zarikos, I., Terzis, A., Roth, N., & Weigand, B. (2018). Crystallization of urea from an evaporative aqueous solution sessile droplet at sub-boiling temperatures and surfaces with different wettability. Exp. Thermal and Fluid Sciences, Vol. 91, Pp. 80-88.
25. Schindler, A., Younis, B. A., & Weigand, B. (2018). Large-Eddy Simulations of turbulent flow through a heated square duct. Int. J. Thermal Sciences, Vol. 135, Pp. 302-318.
26. Prokein, D., Dittert, C., Böhrk, H., & von Wolfersdorf, J. (2018). Transpiration Cooling Experiments on a CMC Wall Segment in a Supersonic Hot Gas Channel. AIAA Propulsion and Energy Forum, Cincinnati, OH, United States. https://doi.org/10.2514/6.2018-4696
27. Prokein, D., Dittert, C., Böhrk, H., & von Wolfersdorf, J. (2018). Numerical Simulation of Transpiration Cooling Experiments in Supersonic Flow using OpenFOAM. HiSST: International Conference on High-Speed Vehicle Science Technology, Moscow, Russia.
28. Pescini, E., Martínez, D. S., Giorgi, M. G. D., & Ficarella, A. (2018). Characterization of the effects of a dielectric barrier discharge plasma actuator on a coaxial jet in a Bunsen burner. Experimental Thermal and Fluid Science, 91, 292–305. https://doi.org/10.1016/j.expthermflusci.2017.10.009
29. Pandey, S., Chu, X., Laurien, E., & Weigand, B. (2018). Buoyancy induced turbulence modulation in pipe flow at supercritical pressure under cooling conditions. Physics of Fluids, 30(6), Article 6. https://doi.org/10.1063/1.5029892
30. Ouédraogo, Y., Gjonaj, E., Weiland, T., De Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., & Dreizler, A. (2018). Modelling and Simulation of Electrically Controlled Droplet Dynamics. Scientific Computing in Electrical Engineering: SCEE 2016, St. Wolfgang, Austria, October 2016, 101--109.
31. Novotny, P., Weigand, B., Marsik, F., Biegger, C., & Tomas, M. (2018). Flow structures in a swirl flow - vortex breakdown condition. Journal of Physics: Conf. Series, Vol. 1045, 012031.
32. Nayak, A. K., Haque, A., & Weigand, B. (2018). Analysis of electroosmotic flow and Joule heating effect in a hydrophobic channel. Chemical Engng. Sci., Vol. 176, Pp. 165-179, 2018.
33. Nagel, W. E., Kröner, D. H., & Resch, M. M. (2018). High Performance Computing in Science and Engineering ’ 17. Springer International Publishing.
34. Lamanna, G., Steinhausen, C., Weigand, B., Preusche, A., Bork, B., Dreizler, A., Stierle, R., & Groß, J. (2018). On the importance of non-equilibrium models for describing the coupling of heat and mass transfer at high pressure. International Communications in Heat and Mass Transfer, 98, 49--58. https://doi.org/10.1016/j.icheatmasstransfer.2018.07.012
35. Lamanna, G., Tonini, S., Weigand, B., & Cossali, G. E. (2018). Selected Results of the International Research Training Group (GRK 2160/1) “Droplet Interaction Technologies" (DROPIT). ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems, Chicago, IL, USA, July 22-26.
36. Lamanna, G., Steinhausen, C., Weigand, B., Preusche, A., Bork, B., Dreizler, A., Stierle, R., & Groß, J. (2018). On the importance of non-equilibrium models for describing the coupling of heat and mass transfer at high pressure. Int. Comm. Heat Mass Transfer, Vol. 98, Pp. 49-58.
37. Lamanna, G., Steinhausen, C., Palmetshofer, P., & Weigand, B. (2018). Influence of solubility effects and diffusion coefficient models on the drop vaporization rate ad high pressure. DIPSI Workshop 2018-Droplet Impact Phenomena and Spray Investigations, 5--8.
38. Karch, G. K., Beck, F., Ertl, M., Meister, C., Schulte, K., Weigand, B., Ertl, T., & Sadlo, F. (2018). Visual Analysis of Inclusion Dynamics in Two-Phase Flow. IEEE Transactions on Visualization and Computer Graphics, 24(5), Article 5.
39. Haidn, O. J., Adams, N. A., Sattelmayer, T., Stemmer, C., Radespiel, R., Schröder, W., & Weigand, B. (2018). Fundamental Technologies for the Development of Future Space Transport System Components under High Thermal and Mechanical Loads. AIAA/SAE/ASEE Joint Propulsion Conference, 9.-11. July 2018, Cincinnati, Ohio, USA.
40. Geppert, A., Terzis, A., Lamanna, G., Weigand, B., & Marengo, M. (2018). A benchmark study for the crown-type splashing dynamics of one- and two-component droplet wall-film interactions. Experiments in Fluids, Vol. 58, Pp. 2-27.
41. Förster, F. J., Brack, S., Poser, R., von Wolfersdorf, J., & Weigand, B. (2018). A novel surface-integrated spray-on thermocouple for heat transfer measurements. Experimental Thermal and Fluid Science, 93, 356--365. https://doi.org/10.1016/j.expthermflusci.2018.01.017
42. Förster, F. J., Baab, S., Steinhausen, C., Lamanna, G., Ewart, P., & Weigand, B. (2018). Mixing characterization of highly underexpanded fluid jets with real gas expansion. Experiments in Fluids, 59(3), Article 3.
43. Förster, F., Baab, S., Steinhausen, C., Lamanna, G., Ewart, P., & Weigand, B. (2018). Mixing characterization of highly underexpanded fluid jets with real gas expansion. Experiments in Fluids, Vol. 59, Pp. 1-10.
44. Föll, F., Pandey, S., Chu, X., Munz, C. D., Laurien, E., & Weigand, B. (2018). High Performance Computing in Science and Engineering ’ 17. Springer International Publishing.
45. Föll, F., Gerber, V., Munz, C., Weigand, B., & Lamanna, G. (2018). Split-form discontinuous Galerkin scheme for multi-phase/component flows. Sonderforschungsbereich/Transregio.
46. Fink, V., Cai, X., Stroh, A., Bernard, R., Kriegseis, J., Frohnapfel, B., Marschall, H., & Wörner, M. (2018). Drop bouncing by micro-grooves. International Journal of Heat and Fluid Flow, 70, 271–278. https://doi.org/10.1016/j.ijheatfluidflow.2018.02.014
47. Chu, X., Chang, W., Pandey, S., Luo, J., Weigand, B., & Laurien, E. (2018). A computationally light data-driven approach for heat transfer and hydraulic characteristics modeling of supercritical fluids: From DNS to DNN. International Journal of Heat and Mass Transfer, 123, 629--636. https://doi.org/10.1016/j.ijheatmasstransfer.2018.02.115
48. Chang, W., Chu, X., Binte Shaik Fareed, A. F., Pandey, S., Luo, J., Weigand, B., & Laurien, E. (2018). Heat transfer prediction of supercritical water with artificial neural networks. Applied Thermal Engineering, 131, 815--824. https://doi.org/10.1016/j.applthermaleng.2017.12.063
49. Chang, W., Chu, X., F., A., Pandey, S., Luo, J., Weigand, B., & Laurien, E. (2018). Heat transfer prediction of supercritical water with artificial neural networks. Applied Thermal Engineering, 131, 815--824.
50. Chang, W., Chu, X., Binte Shaik Fareed, A. F., Pandey, S., Luo, J., Weigand, B., & Laurien, E. (2018). Heat Transfer Prediction of Supercritical Water with Artificial Neural Networks. Applied Thermal Engineering, Vol. 131, Pp. 815–824.
51. Brack, S., Poser, R., & von Wolfersdorf, J. (2018). Unsteady conjugate heat transfer experiments in the presence of lateral conduction. XXIV Biennial Symposium on Measuring Techniques in Turbomachinery. http://www.meastechturbo.com/index.php/paper-archives/2418-prague-2018/item/download/460_e4b17604cc56b28fbed43e53b84f2d6c
52. Biegger, C., Rao, Y., & Weigand, B. (2018). Flow and heat transfer measurements in swirl tubes with one and multiple tangential inlet jets for internal gas turbine blade cooling. Int. J. Heat Fluid Flow, Vol. 73, Pp. 174-187.
53. Baggio, M., & Weigand, B. (2018). A numerical method for handling arbitrary solid boundaries within the DNS multiphase code Free Surface 3D (FS3D. ICLASS 2018, 14th Triennial International Conference on Liquid Atomization and Spray Systems, Chicago, IL, USA, July 22-26.
54. Baab, S., Steinhausen, C., Lamanna, G., Weigand, B., & Förster, F. (2018). A quantitative speed of sound database for multi-component jet mixing at high pressure. Fuel. https://doi.org/10.1016/j.fuel.2017.12.080
55. Baab, S., Lamanna, G., & Weigand, B. (2018). Two-phase disintegration of high-pressure retrograde fluid jets at near-critical injection temperature discharged into a subcritical pressure atmosphere. International Journal of Multiphase Flow. https://doi.org/10.1016/j.ijmultiphaseflow.2018.04.02
56. Baab, S., Steinhausen, C., Lamanna, G., Weigand, B., & Förster, F. J. (2018). A quantitative speed of sound database for multi-component jet mixing at high pressure. Fuel, Vol. 233, Pp.918-925.
2017
1. Sen, S., Vaikuntanathan, V., & Sivakumar, D. (2017). Impact dynamics of alternative jet fuel drops on heated stainless steel surface. International Journal of Thermal Sciences, 121, 99--110. https://doi.org/10.1016/j.ijthermalsci.2017.07.006
2. Vaikuntanathan, V., Kannan, R., & Sivakumar, D. (2017). An experimental study on the equilibrium shape of water drops impacted on groove-textured surfaces. Experimental Thermal and Fluid Science, 87, 129--140. https://doi.org/10.1016/j.expthermflusci.2017.05.001
3. Pandey, S., Laurien, E., & Chu, X. (2017). A modified convective heat transfer model for heated pipe flow of supercritical carbon dioxide. INTERNATIONAL JOURNAL OF THERMAL SCIENCES, 117, 227–238. https://doi.org/10.1016/j.ijthermalsci.2017.03.021
4. Ouedraogo, Y., Gjonaj, E., Weiland, T., De Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., & Dreizler, A. (2017). A Convection-Conduction Model for Electrohydrodynamic Simulations. 21st Int. Conf. on the Computation of Electrical Fields, Compumag 2017, 18–22.
5. Ouedraogo, Y., Gjonaj, E., Weiland, T., De Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., & Dreizler, A. (2017). MODELING OF AN ELECTRICALLY DRIVEN DROPLET GENERATOR. COUPLED PROBLEMS IN SCIENCE AND ENGINEERING VII (COUPLED PROBLEMS 2017), 2017, 1100--1111.
6. Kutne, P., Richter, J., Gounder, J. D., Naumann, C., & Meier, W. (2017, June). Exhaust Gas Recirculation at Elevated Pressure Using a FLOX® Combustor. Volume 4A: Combustion, Fuels and Emissions. https://doi.org/10.1115/gt2017-64227
7. Schulte, K. (n.d.). Modelling of the Initial Ice Growth in a Supercooled Liquid Droplet (p. Online-Ressource, 141 Seiten) [HOCHSCHULSCHRIFT]. Verlag Dr. Hut.
8. Ruberto, S., Reutzsch, J., Roth, N., & Weigand, B. (2017). A systematic experimental study on the evaporation rate of supercooled water droplets at subzero temperatures and varying relative humidity. Experiments in Fluids, 58(5), Article 5. https://doi.org/10.1007/s00348-017-2339-5
9. Winkler, S., Kerber, E., Hitz, T., Weigand, B., & Ligrani, P. (2017). Numerical second law analysis around a turbine guide vane using a two-equation turbulence model and comparison with experiments. Int. J. Thermal Sciences, Vol. 117, Pp. 91-102.
10. Wienand, J., Riedelsheimer, A., & Weigand, B. (2017). Numerical study of a turbulent impinging jet for different jet-to-plate distances using two-equation turbulence models. European Journal of Mechanics - B/Fluids, 61, 210–217. https://doi.org/10.1016/j.euromechflu.2016.09.008
11. Vaikuntanathan(vaikuntanathan), V., & Sivakumar, D. (2017). Analysis of Drop Spreading upon Impact on Dual-Textured Surface. In A. Saha, D. Das, R. Srivastava, P. Panigrahi, & K. Muralidhar (Eds.), Fluid Mechanics and Fluid Power – Contemporary Research (pp. 1351–1360). Springer. https://doi.org/10.1007/978-81-322-2743-4_129
12. Uddin, N., Weigand, B., & Younis, B. A. (2017). A comparative study on heat transfer enhancement by turbulent impinging jet under conditions of swirl, active excitations and passive excitations. 3rd Thermal and Fluids Engng. Conf., TFEC-2018-21392, 4.3.2018-7.3.2018, Fort Lauderdale, USA.
13. Twellmeyer, A., Kopple, F., & Weigand, B. (2017). Evaluating different measures to improve the numerical simulation of the mixture formation in a spark-ignition CNG-DI-Engine.
14. Tropea, C., Weigand, B., & Schulte, K. (2017). Selected Results of the Collaborative Research Center" Droplet Dynamics under Extreme Ambient Conditions" SFB/TRR 75. Ilass Europe. 28th European Conference on Liquid Atomization and Spray Systems, 296--303.
15. Traxinger, C., Müller, H., Pfitzner, M., Baab, S., Lamanna, G., Weigand, B., Matheis, J., Stemmer, C., Adams, N. A., & Hickel, S. (2017). Experimental and numerical investigation of phase separation due to multi-component mixing at high-pressure conditions. ArXiv Preprint ArXiv:1706.03923.
16. Traxinger, C., Müller, H., Pfitzner, M., Baab, S., Lamanna, G., Weigand, B., Matheis, J., Stemmer, C., Adams, N. A., & Hickel, S. (2017). Experimental and Numerical Investigation of Phase Separation due to Multi-Component Mixing at High-Pressure Conditions. ILASS–Europe 2017, 28th Conference on Liquid Atomization and Spray Systems, 6-8 September 2017, Valencia, Spain.
17. Terzis, A., Roumeli, E., Weishaupt, K., Brack, S., Aslannejad, H., Groß, J., Hassanizadeh, S. M., Helmig, R., & Weigand, B. (2017). Heat release at the wetting front during capillary filling of cellulosic micro-substrates. J. of Colloid and Interfaces, Vol. 504, Pp. 751-757.
18. Steinhausen, C., Lamanna, G., Weigand, B., Stierle, R., Gross, J., Preusche, A., & Dreizler, A. (2017). Experimental Investigation of Droplet Injections in the Vicinity of the Critical Point: A comparison of different model approaches. Ilass Europe. 28th European Conference on Liquid Atomization and Spray Systems, 830--837.
19. Steelant, J., Dalenbring, M., Kuhn, M., Bouchez, M., & Von Wolfersdorf, J. (2017). Achievements obtained within ATLLAS-II on aero-thermal loaded material investigations for high-speed vehicles. 21st AIAA International Space Planes and Hypersonics Technologies Conference, Hypersonics 2017. https://www.scopus.com/inward/record.uri?eid=2-s2.0-85017532944&partnerID=40&md5=be27e0d439c4daaba5fb15cf044d8dcb
20. Singh, P., & Ekkad, S. V. (2017). Experimental Investigation of Rotating Rib Roughened Two-Pass Square Duct With Two Different Channel Orientations (No. 50879). 50879, Article 50879. http://dx.doi.org/10.1115/GT2017-64225
21. Sen, S., Vaikuntanathan(vaikuntanathan), V., & Sivakumar, D. (2017). Impingement of Aviation Fuel Drop on Stainless Steel Surface. In A. Saha, D. Das, R. Srivastava, P. Panigrahi, & K. Muralidhar (Eds.), Fluid Mechanics and Fluid Power – Contemporary Research (pp. 969–977). Springer. https://doi.org/10.1007/978-81-322-2743-4_91
22. Seck, A., Gomaa, H., & Weigand, B. (2017). Improved modeling approach for the interaction between droplets and blades in a compressor cascade.
23. Schneider, M., Younis, B. A., & Weigand, B. (2017). Large-eddy simulations of flow and heat transfer in heated concentric annulus with inner cylinder rotation. Int. Journal of Heat and Mass Transfer, Vol. 114, Pp. 1248–1262.
24. Roth, N., Gomaa, H., Livne, A., Katoshevski, D., & Weigand, B. (2017). Theoretical and Experimental Study of Grouping Effects on Droplet Streams. ILASS–Europe 2017, 28th Conference on Liquid Atomization and Spray Systems, 6-8 September 2017, Valencia, Spain.
25. Richter, J., Steinhausen, C., Weigand, B., Beuting, M., Dreier, T., & Schulz, C. (2017). Non-intrusive frequency measurements of bluff-body vortex shedding at high Reynolds numbers. ISABE 2017, 21472.
26. Reitzle, M., Kieffer-Roth, C., Garcke, H., & Weigand, B. (2017). A volume-of-fluid method for three-dimensional hexagonal solidification processes.
27. Rao, Y., Biegger, C., & Weigand, B. (2017). Heat transfer and pressure loss in swirl tubes with one and multiple tangential jets pertinent to gas turbine internal cooling. Int. Journal of Heat Mass Transfer, Vol. 106, Pp. 1356-1367.
28. Quedraogo, Y., Gjonaj, E., Weiland, T., De Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., Dreizler, A., & Schremb, M. (2017). Electrohydrodynamic simulation of electrically controlled droplet generation. Int. J. of Heat and Fluid Flow, Vol. 64, Pp. 120-128.
29. Prokein, D., & von Wolfersdorf, J. (2017). Numerical Simulation of Turbulent Boundary Layers with Foreign Gas Transpiration using OpenFOAM. 7th European Conference for Aeronautics and Space Sciences (EUCASS), Milan, Italy. https://doi.org/10.13009/EUCASS2017-58
30. Pandey, S., Chu, X., & Laurien, E. (2017). Investigation of in-tube cooling of carbon dioxide at supercritical pressure by means of direct numerical simulation. International Journal of Heat and Mass Transfer, 114, 944--957. https://doi.org/10.1016/j.ijheatmasstransfer.2017.06.089
31. Ouedraogo, Y., Gjonaj, E., Weiland, T., De Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., Dreizler, A., & Schremb, M. (2017). Electrohydrodynamic simulation of electrically controlled droplet generation. International Journal of Heat and Fluid Flow, 64, 120--128.
32. Ouedraogo, Y., Gjonaj, E., Weiland, T., de Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., & Dreizler, A. (2017). Modelling and simulation of electrically controlled droplet dynamics. Proceedings 11th International Confernce on Scientific Computing in Electrical Engineering: 3-7 October 2017, St. Wolfgang, Austria.
33. Ouedraogo, Y., Gjonaj, E., Weiland, T., de Gersem, H., Steinhausen, C., Lamanna, G., Weigand, B., Preusche, A., & Dreizler, A. (2017). A Convection-Conduction Model for Electrohydrodynamic. Proceedings Compumag2017 21st International Conference on the Computation of Electromagnetic Fields: June 18-22 2017, Daejeon, Korea.
34. Nishad, K., Shevchuk, I., Sadiki, A., Weigand, B., Vrabec, J., & Janicka, J. (2017). Effect of Nu- and Sh-Number Correlations on Numerical Predictions of Droplet Evaporation Rate under Transcritical Conditions. Tenth Mediterranean Combustion Symposium, Naples, Italy.
35. Neupert, N., Gomaa, H., Joos, F., & Weigand, B. (2017). Investigation and modelling of two phase flow through a compressor stage: Analysis of film breakup. European Journal of Mechanics B/Fluids, Vol. 61, Pp. 279-288.
36. Nayak, A. K., Haquea, A., Banerjee, A., & Weigand, B. (2017). Flow mixing and electric potential effect of binary fluids inmicro/nano channels. Colloids and Surfaces A: Physicochem. Eng. Aspects, Vol. 512, Pp. 145–157.
37. Nayak, A. K., Banerjee, A., & Weigand, B. (2017). Mixing and charge transfer in a nanofluid system due to patterned surface. Applied Mathematical Modelling, Vol. 54, Pp. 483-501.
38. Martínez, D. S., Illán, F., Solano, J. P., & Viedma, A. (2017). Embedded thermocouple wall temperature measurement technique for scraped surface heat exchangers. Applied Thermal Engineering, 114, 793–801. https://doi.org/10.1016/j.applthermaleng.2016.12.039
39. Manosroi, W., Roth, N., & Weigand, B. (2017). An improved size and refractive index measurement of a pentadecane single droplet in a heated chamber. Journal of Measurements in Engineering (JME), Vol. 5, Issue 1, Pp. 1-10, 2017.
40. Makowka, K., Dröske, N. C., von Wolfersdorf, J., & Sattelmayer, T. (2017). Hybrid RANS/LES of a supersonic combustor. Aerospace Science and Technology, 69, 563–573. https://doi.org/10.1016/j.ast.2017.07.025
41. Liu, C.-L., Gao, C., von Wolfersdorf, J., & Zhai, Y.-N. (2017). Numerical study on the temporal variations and physics of heat transfer coefficient on a flat plate with unsteady thermal boundary conditions. International Journal of Thermal Sciences, 113, 20–37. https://doi.org/10.1016/j.ijthermalsci.2016.11.013
42. Kerber, E., & Weigand, B. (2017). Grundlegende Untersuchungen zur Umsetzung zwischengekühlter Verdichtung in Turbomaschinentriebwerken. DLRK, München, 5.9. 2017-7.9.2017, S. 1- 8.
43. Karch, G. K., Beck, F., Ertl, M., Meister, C., Schulte, K., Weigand, B., Ertl, T., & Sadlo, F. (2017). Visual Analysis of Inclusion Dynamics in Two-Phase Flow. IEEE Transactions on Visualization and Computer Graphics. http://dx.doi.org/10.1109/TVCG.2017.2692781
44. Huber, C., Weigand, B., Reister, H., & Binner, T. (2017). Use of an Eulerian/Lagrangian Framework to improve the air intake system of an automobile with respect to snow ingress. SAE Int. Passeng. Cars – Mech. Syst., Vol. 10, 2017, Doi: 10.4271/2017-01-1319.
45. Haque, A., Nayak, A. K., Banerjee, A., & Weigand, B. (2017). Thermofluidic Transport in Micro Channel: An Analysis Through Joule Heating Effect. Proceedings of the 44th National Conference on Fluid Mechanics and Fluid Power December 14-16, 2017, Amrita University, Amritapuri Campus, Kollam, Kerala, India, FMFP2017–PAPER NO. 150.
46. Geppert, A., Terzis, A., Lamanna, G., Marengo, M., & Weigand, B. (2017). A benchmark study for the crown-type splashing dynamics of one- and two-component droplet wall-film interactions. Experiments in Fluids, 58(12), Article 12. https://doi.org/10.1007/s00348-017-2447-2
47. Frackowiak, A., von Wolfersdorf, J., & Ciałkowski, M. (2017). An iterative algorithm for the stable solution of inverse heat conduction problems in multiply-connected domains. International Journal of Thermal Sciences, 96. https://doi.org/10.1016/j.ijthermalsci.2015.02.016
48. Ertl, M., Reutzsch, J., Nägel, A., Wittum, G., & Weigand, B. (2017). Towards the Implementation of a New Multigrid Solver in the DNS Code FS3D for Simulations of Shear-Thinning Jet Break-Up at Higher Reynolds Numbers. In High Performance Computing in Science and Engineering ’17 (pp. 269–287). Springer. https://doi.org/10.1007/978-3-319-68394-2
49. Ertl, M., & Weigand, B. (2017). Analysis methods for direct numerical simulations of primary breakup of shear-thinning liquid jets. Atomization and Sprays, Vol. 27, Pp. 303-317.
50. Dröske, N.C. and. Förster, F. J., Weigand, B., & von Wolfersdorf, J. (2017). Thermal investigation of an internally cooled strut injector for scramjet application at moderate and hot gas conditions. Acta Astronautica, Vol. 132, Pp. 177-191.
51. Dröske, N. C., Förster, F. J., Weigand, B., & von Wolfersdorf, J. (2017). Thermal investigation of an internally cooled strut injector for scramjet application at moderate and hot gas conditions. Acta Astronautica, 132, 177–191. https://doi.org/10.1016/j.actaastro.2016.12.023
52. Chen, L., Brakmann, R. G. A., Weigand, B., Rodriguez, J., Crawford, M., & Poser, R. (2017). Experimental and numerical heat transfer investigation of an impingement jet array with V-ribs on the target plate and on the impingement plate. International Journal of Heat and Fluid Flow, 68, 126--138. https://doi.org/10.1016/j.ijheatfluidflow.2017.09.005
53. Brack, S., Poser, R., & von Wolfersdorf, J. (2017). A comparison between transient heat transfer measurements using TLC and IR thermography. 9th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics. https://doi.org/10.18419/opus-9723
54. Bork, B., Preusche, A., Weckenmann, F., Lamanna, G., & Dreizler, A. (2017). Measurement of species concentration and estimation of temperature in the wake of evaporating n-heptane droplets at trans-critical conditions. Proceedings of the Combustion Institute, 36(2), Article 2. http://dx.doi.org/10.1016/j.proci.2016.07.037
55. Bernard, R., Foltyn, P., Geppert, A., Lamanna, G., & Weigand, B. (2017). Generalized analysis of the deposition/splashing limit for one-and two-component droplet impacts upon thin films. Ilass Europe. 28th European Conference on Liquid Atomization and Spray Systems, 730--737.
56. Banerjee, A., Haque, A., Nayak, A. K., & Weigand, B. (2017). Electroosmotic Flow Mixing due to Obstructions: A Case Study. Proceedings of the 44th National Conference on Fluid Mechanics and Fluid Power December 14-16, 2017, Amrita University, Amritapuri Campus, Kollam, Kerala, India, FMFP2017–PAPER NO. 111.
57. Aslannejad, H., Terzis, A., Hassanizadeh, S. M., & Weigand, B. (2017). Occurrence of temperature spikes at a wetting front during spontaneous imbibition. Scientific Reports, DOI:10.1038/S41598-017-07528-7.
2016
1. Vaikuntanathan(vaikuntanathan), V., & Sivakumar, D. (2016). Effect of wetting difference across junction on dynamics of drops impacting on the junction of dual-textured surfaces. AIChE Journal, 62(11), Article 11. https://doi.org/10.1002/aic.15297
2. Ruberto, S., Reutzsch, J., & Weigand, B. (2016). Experimental investigation of the evaporation rate of supercooled water droplets at constant temperature and varying relative humidity. International Communications in Heat and Mass Transfer, 77, 190--194. https://doi.org/10.1016/j.icheatmasstransfer.2016.08.005
3. Ouédraogo, Y., Gjonaj, E., Gersem, H. D., Weiland, T., Steinhausen, C., Lamanna, G., Preusche, A., & Dreizler, A. (2016, October). Modeling and simulation of electrically controlled droplet dynamics. 11th Int. Conf. on Scientific Computing in Electrical Engineering.
4. Chu, X., Laurien, E., & McEligot, D. M. (2016). Direct numerical simulation of strongly heated air flow in a vertical pipe. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 101, 1163–1176. https://doi.org/10.1016/j.ijheatmasstransfer.2016.05.038
5. Lamanna, G. (2016, July). Cryogenic Flashing Jets: A Review (Invited Paper). 52nd AIAA/SAE/ASEE Joint Propulsion Conference. https://doi.org/10.2514/6.2016-4787
6. Gupta, R., Vaikuntanathan, V., & Sivakumar, D. (2016). Superhydrophobic qualities of an aluminum surface coated with hydrophobic solution NeverWet. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 500, 45--53. https://doi.org/10.1016/j.colsurfa.2016.04.017
7. Axtmann, M., Poser, R., von Wolfersdorf, J., & Bouchez, M. (2016). Endwall heat transfer and pressure loss measurements in staggered arrays of adiabatic pin fins. Applied Thermal Engineering, 103, 1048--1056. https://doi.org/10.1016/j.applthermaleng.2016.04.066
8. Göhring, M., Krille, T., Feile, J., & Wolfersdorf, J. von. (2016, April). Heat Transfer Predictions in Smooth and Ribbed Two-Pass Cooling Channels under Stationary and Rotating Conditions. 16th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery. https://hal.archives-ouvertes.fr/hal-01884254
9. Vaikuntanathan, V., & Sivakumar, D. (2016). Maximum Spreading of Liquid Drops Impacting on Groove-Textured Surfaces: Effect of Surface Texture. Langmuir, 32(10), Article 10. https://doi.org/10.1021/acs.langmuir.5b04639
10. Vaikuntanathan, V. (2016). Comment on “Approaching the theoretical contact time of a bouncing droplet on the rational macrostructured superhydrophobic surfaces” Appl. Phys. Lett. 107, 111604 (2015). Appl. Phys. Lett., 108(1), Article 1. https://doi.org/10.1063/1.4939722
11. Schulz, S., Schindler, A., & von Wolfersdorf, J. (2016). An Experimental and Numerical Investigation on the Effects of Aerothermal Mixing in a Confined Oblique Jet Impingement Configuration. Journal of Turbomachinery, 138(4), Article 4. https://doi.org/10.1115/1.4032022
12. Eisenschmidt, K., Ertl, M., Gomaa, H., Kieffer-Roth, C., Meister, C., Rauschenberger, P., Reitzle, M., Schlottke, K., & Weigand, B. (2016). Direct numerical simulations for multiphase flows: An overview of the multiphase code FS3D. Journal of Applied Mathematics and Computation, 272(2), Article 2. https://doi.org/10.1016/j.amc.2015.05.095
13. Wienand, J., Riedelsheimer, A., & Weigand, B. (2016). Numerical study of a turbulent impinging jet for different jet-to-plate distances using two-equation turbulence models. In 16. ISROMAC.
14. Weigand, B., Tropea, C., & Schulte, K. (2016). Selected results of the Collaborative Research Center „Droplet Dynamics under Extreme Boundary Conditions SFB-TRR 75”. ILASS-Europe 2016, 4.-7.9.2016, Brighton, UK.
15. Waidmann, C., Poser, R., Nieland, S., & von Wolfersdorf, J. (2016). Design of a Rotating Test Rig for Transient Thermochromic Liquid Crystal Heat Transfer Experiments. 16th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery. https://hal.archives-ouvertes.fr/hal-01884257
16. Uddin, N., Neumann, S. O., & Weigand, B. (2016). Heat transfer enhancement by velocity field excitation for an impinging round jet. Numerical Heat Transfer, Part A: Applications, DOI 10.1080/10407782.2015.1090840, 2016, Pp. 1- 14.
17. Terzis, A., Skourides, C., Ott, P., von Wolfersdorf, J., & Weigand, B. (2016). Aerothermal investigation of a single row divergent narrow impingement channel by particle image velocimetry and liquid crystal thermometry. Journal of Turbomachinery, Vol. 139, 2016, Pp. 1-9.
18. Terzis, A., Skourides, C., Ott, P., von Wolfersdorf, J., & Weigand, B. (2016). Aerothermal investigation of a single row divergent narrow impingement channel by particle image velocimetry and liquid crystal thermography. Journal of Turbomachinery, 138(5), Article 5. https://doi.org/10.1115/1.4032328
19. Terzis, A., Bontitsopoulos, S., Ott, P., Von Wolfersdorf, J., & Kalfas, A. I. (2016). Improved accuracy in jet impingement heat transfer experiments considering the layer thicknesses of a triple thermochromic liquid crystal coating. Journal of Turbomachinery, 138(2), Article 2. https://doi.org/10.1115/1.4031786
20. Schulz, S., Brack, S., Terzis, A., von Wolfersdorf, J., & Ott, P. (2016). On the effects of coating thickness in transient heat transfer experiments using thermochromic liquid crystals. Experimental Thermal and Fluid Science, 70(Supplement C), Article Supplement C. https://doi.org/10.1016/j.expthermflusci.2015.08.011
21. Schlottke, K. M., Meister, C., Karch, G. K., Geppert, A., Sadlo, F., Ertl, T., & Weigand, B. (2016). Direct numerical simulation of multi-component droplet interaction.
22. Santini, M., Fest-Santini, S., & Foltyn, P. (2016). On the local mass transfer rates around arbitrary shaped particles calculated by X-ray computed microtomography: Prospective for a novel experimental technique. International Communications in Heat and Mass Transfer, 79, 135–139. https://doi.org/10.1016/j.icheatmasstransfer.2016.11.001
23. Roth, N., Reitzle, M., Franke, M., Moita, A., & Weigand, B. (2016). Shear Thinning Liquids Impacting on Dry Solid Walls: Comparison Between Numerical Simulations and Experiments. Proc. 27th Europ. Conf. on Liquid Atomization and Spray Systems.
24. Richter, J., Beuting, M., Schulz, C., Dreier, T., & Weigand, B. (2016). Macroscopic mixing investigation in a compressible accelerated nozzle flow using toluene tracer LIF. 18th Int. Symp. On the Appl. of Laser and Imaging Techn. to Fluid Mechanics, LISBON, Portugal.
25. Reitzle, M., Roth, N., & Weigand, B. (2016). Numerical Study of the Impact of Praestol® Droplets on Solid Walls. High Performance Computing in Science and Engineering ’16, 375–388.
26. Pagnacco, F., Furlani, L., Armellini, A., Casarsa, L., & Davis, A. (2016). Rotating Heat Transfer Measurements on a Multi-Pass Internal Cooling Channel: I — Rig Development (No. 49798; Issue 49798, p. V05BT16A005--). http://dx.doi.org/10.1115/GT2016-56308
27. Pagnacco, F., Furlani, L., Armellini, A., Casarsa, L., & Davis, A. (2016). Rotating Heat Transfer Measurements on a Multi-Pass Internal Cooling Channel: II — Experimental Tests (No. 49798; Issue 49798, p. V05BT16A004--). http://dx.doi.org/10.1115/GT2016-56307
28. Neupert, N., Gomaa, H., Joos, F., & Weigand, B. (2016). Investigation and modelling of two phase flow through a compressor stage: Analysis of film breakup. ISROMAC 2016, Int. Symp. On Transport Phenomena of Rotating Machinery, Hawaii, Honolulu, April 10-15, 2016.
29. Löhle, S., Schweikert, S., & Von Wolfersdorf, J. (2016). Method for heat flux determination of a transpiration-cooled wall from pressure data. Journal of Thermophysics and Heat Transfer, 30(3), Article 3. https://doi.org/10.2514/1.T4815
30. Lipnicki, Z., & Weigand, B. (2016). Development of the contact layer and its role in the phase change process. Int. J. Heat Mass Transfer, Vol. 93, 2016, Pp. 1082-1088.
31. Hell, A., Förster, F. J., & Weigand, B. (2016). Validation of laser-induced thermal acoustics for chemically reacting H2/air free jets. J. Raman Spectrosc., Vol. 47, Pp. 1157-1166.
32. Gramlich, R., Leick, P., Kaleta, J., Miller, A., Bossmeyer, T., Lamanna, G., Schmidt, D., Roisman, I. V., & Tropea, C. (2016). Air Entrainment and Momentum Distribution in the Near Field of Diesel Sprays from Group Hole Nozzles. Proceedings of the 27th European Conference on Liquid Atomization and Spray Systems (ILASS). Brighton, UK.
33. Gramlich, R., Leick, P., Kaleta, J., Bossmeyer, T., Lamanna, G., Roisman, I. V., & Tropea, C. (2016). Experimental investigations of the near-field of twinjet gasoline sprays using detailed high-speed shadowgraphy and particle image velocimetry. Proceedings of the 18th Internationl Symposium on Application of Laser and Imaging Techniques to Fluid Mechanics. Lisbon, Portugal.
34. Geppert, A., Chatzianagnostou, D., Meister, C., Gomaa, H., Lamanna, G., & Weigand, B. (2016). CLASSIFICATION OF IMPACT MORPHOLOGY AND SPLASHING/DEPOSITION LIMIT FOR N-HEXADECANE. Atomization and Sprays, 26(10), Article 10. https://doi.org/10.1615/atomizspr.2015013352
35. Geppert, A., Terzis, A., Lamanna, G., Marengo, M., & Weigand, B. (2016). On the formation of secondary droplets from crown bottom breakdown during drop impact on very thin films. 27th Annual Conference on Liquid Atomization and Spray Systems, Brighton, UK.
36. Galbiati, C., Tonini, S., Weigand, B., & Cossali, G. E. (2016). Direct numerical simulation of primary break-up in swirling liquid jets. ICMF-2016, 9th Int. Conf. on Multiphase Flow, Firence, Italy, May 22nd-27th, 2016.
37. Förster, F. J., Dröske, N. C., Bühler, M. N., von Wolfersdorf, J., & Weigand, B. (2016). Analysis of flame characteristics in a scramjet combustor with staged fuel injection using common path focusing schlieren and flame visualization. Combustion and Flame, Vol. 168, Pp. 204-215.
38. Föll, F., Baab, S., Munz, C. D., Weigand, B., & Lamanna, G. (2016). A discontinuous Galerkin method for tabulated general equations of state.
39. Föll, F., Baab, S., Munz, C., Weigand, B., & Lamanna, G. (2016). A discontinuous Galerkin method for tabulated general equations of state. Tech. rep., Annual report: SFB-TRR 40.
40. Ertl, M., & Weigand, B. (2016). Direct numerical simulations of shear-thinning liquid jets and droplets. Chap. 17, Process-Spray, U. Fritsching (Ed.), Springer 2016, Pp. 647-678, ISBN 978-3-319-32368-8.
41. Ertl, M., Karch, G. K., Sadlo, F., Ertl, T., & Weigand, B. (2016). Investigation and visual analysis of direct numerical simulations of quasi-steady primary break-up of shear thinning liquids. ICMF-2016, 9th Int. Conf. on Multiphase Flow, Firence, Italy, May 22nd-27th, 2016.
42. Dragomirescu, I., Eisenschmidt, K., Rohde, C., & Weigand, B. (2016). Perturbation solutions for the finite radially symmetric Stefan problem. International Journal of Thermal Sciences, 104, 386–395. http://www.sciencedirect.com/science/article/pii/S1290072916000326
43. Dragomirescu, F. I., Eisenschmidt, K., Rohde, C., & Weigand, B. (2016). Perturbation solutions for the finite radially symmetric Stefan problem. Int. J. of Thermal Sciences, Vol. 104, 2016, Pp. 386-395.
44. Chu, X., Laurien, E., & Pandey, S. (2016). Direct Numerical Simulation of Heated Pipe Flow with Strong Property Variation. In W. E. Nagel, D. H. Kröner, & M. M. Resch (Eds.), High Performance Computing in Science and Engineering ´16: Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2016 (pp. 473--486). Springer International Publishing.
45. Chu, X., & Laurien, E. (2016). Direct Numerical Simulation of Heated Turbulent Pipe Flow at Supercritical Pressure. Journal of Nuclear Engineering and Radiation Science, 2(3), Article 3.
46. Chu, X., & Laurien, E. (2016). Flow stratification of supercritical CO2 in a heated horizontal pipe. The Journal of Supercritical Fluids, 116, 172--189.
47. Chu, X., & Laurien, E. (2016). Investigation of Convective Heat Transfer to Supercritical Carbon Dioxide with Direct Numerical Simulation. In High Performance Computing in Science and Engineering´ 15 (pp. 315--331). Springer.
48. Brakmann, R., Chen, L., Weigand, B., & Crawford, M. (2016). Experimental and numerical heat transfer investigation of an impingement jet array on a target plate roughened by cubic micro pin fins. ASME Turbo Expo 2015, GT2015-42149, Pp. 1-11.
49. Brack, S., Poser, R., & von Wolfersdorf, J. (2016). An Approach to Consider Lateral Heat Conduction Effects in the Evaluation Process of Transient Heat Transfer Measurements Using TLC. 107, 289--302. https://doi.org/10.1016/j.ijthermalsci.2016.03.028
50. Brack, S., Poser, R., & von Wolfersdorf, J. (2016). A comparison between transient heat transfer measurements using TLC and IR thermography. XXIII Biennial Symposium on Measuring Techniques in Turbomachinery. https://doi.org/10.18419/opus-9702
51. Banuti, D. T., Hannmann, V., Hannemann, K., & Weigand, B. (2016). An efficient multi-fluid-mixing model for real gas reacting flows in liquid propellant rocket engines. Combustion and Flame, Vol. 168, 2016, Pp. 98-112.
52. Baab, S., Förster, F. J., Lamanna, G., & Weigand, B. (2016). Speed of sound measurements and mixing characterization of underexpanded fuel jets with supercritical reservoir condition using laser-induced thermal acoustics. Experiments in Fluids.
53. Baab, S., Förster, F., Lamanna, G., & Weigand, B. (2016). Speed of sound measurements and mixing characterization of underexpanded fuel jets with supercritical reservoir condition using laser-induced thermal acoustics. Experiments in Fluids, 57(11), Article 11.
54. Axtmann, M., Heier, M., Hilali, W., & Weigand, B. (2016). Axial heat conduction effects in the thermal entrance region for flows in concentric annular ducts: Correlations for the local bulk-temperature and the Nusselt number at the outer wall. Int. Journal of Heat Mass Transfer, Vol. 103, Pp. 974-983.
2015
1. Förster, F. J., Baab, S., Lamanna, G., & Weigand, B. (2015). Temperature and velocity determination of shock-heated flows with non-resonant heterodyne laser-induced thermal acoustics. Applied Physics B, 121(3), Article 3. https://doi.org/10.1007/s00340-015-6217-7
2. Axtmann, M., von Wolfersdorf, J., & Meyer, G. (2015). Application of the Transient Heat Transfer Measurement Technique in a Low Aspect Ratio Pin Fin Cooling Channel. Journal of Turbomachinery, 137(12), Article 12. https://doi.org/10.1115/1.4031267
3. Younis, B., Zumdick, M., & Weigand, B. (2015). Prediction of mass and momentum transport in turbulent plane wall jets over smooth and transitionally rough surfaces. Environ. Fluid Mech. DOI 10.1007/S10652-015-9431-2, 2015, Pp. 1-16.
4. Winkler, S., Haase, K., Lyulinetskyy, R., Neumann, O., & Weigand, B. (2015). On the optimization of 3D-flow and heat transfer by using the Ice Formation Method: Vane endwall heat transfer. International Journal of Heat and Mass Transfer.
5. Ullmer, D., Peschke, P., Terzis, A., Ott, P., & Weigand, B. (2015). Impact of ns-DBD plasma actuation on the boundary layer transition using convective heat transfer measurements. Journal of Physics D: Applied Physics, Vol. 48, 365203, Pp. 1-13.
6. Tropea, C., & Weigand, B. (2015). Droplet dynamics under extreme boundary conditions: The Collaborative Research Council SFB-TRR 75. ICLASS 2015, 13th Int. Conf. on Liquid Atomization and Spray Systems, Tainan, Taiwan, August.
7. Terzis, A., von Wolfersdorf, J., Weigand, B., & Ott, P. (2015). A method to visualise near wall fluid flow patterns using locally resolved heat transfer experiments. Experimental Thermal and Fluid Science, 60 (2015), 223-230.
8. Terzis, A., Ott, P., Cochet, M., Von Wolfersdorf, J., & Weigand, B. (2015). Effect of varying jet diameter on the heat transfer distributions of narrow impingement channels. Journal of Turbomachinery, 137(2), Article 2. https://doi.org/10.1115/1.4028294
9. Schulz, S., Schindler, A., & von Wolfersdorf, J. (2015). An Experimental and Numerical Investigation on the Effects of Aerothermal Mixing in a Confined Oblique Jet Impingement Configuration. ASME Turbo Expo 2015, Montreal, Quebec, Canada. https://doi.org/10.1115/GT2015-42286
10. Rauschenberger, P., & Weigand, B. (2015). Direct numerical simulation of rigid bodies in multiphase flow within an Eulerian framework. Journal of Computational Physics, Vol. 291, Pp. 238-253.
11. Rauschenberger, P., & Weigand, B. (2015). A Volume-of-Fluid method with interface reconstruction for ice growth in supercooled water.
12. Rao, Y., Feng, Y., Li, B., & Weigand, B. (2015). Experimental and numerical study of heat transfer and flow friction in channels with dimples of different shapes. ASME Journal of Heat Transfer, Vol. 137, Doi: 10.1115/1.4029036, 031901, Pp. 1-10.
13. Prokein, D., Böhrk, H., & von Wolfersdorf, J. (2015). Analysis of Anisotropy Effects for Transpiration Cooled CMC Leading Edges using OpenFOAM. 20th AIAA International Space Planes and Hypersonic Systems and Technologies Conference, Glasgow, United Kingdom. https://doi.org/10.2514/6.2015-3552
14. Pescini, E., Martínez, D. S., Giorgi, M. G. D., & Ficarella, A. (2015). Optimization of micro single dielectric barrier discharge plasma actuator models based on experimental velocity and body force fields. Acta Astronautica, 116, 318–332. https://doi.org/10.1016/j.actaastro.2015.07.015
15. Müller, H., Younis, B. A., & Weigand, B. (2015). Development of a compact explicit algebraic model for the turbulent heat fluxes and ist application in heated rotating flows. Int. J. Heat Mass Transfer, Vol. 86, Pp. 880-889, 2015.
16. Liu, C.-L., Wolfersdorf, J. V., & Zhai, Y.-N. (2015). Comparison of time-resolved heat transfer characteristics between laminar and turbulent convection with unsteady flow temperatures. International Journal of Heat and Mass Transfer, 84, 376–389. https://doi.org/10.1016/j.ijheatmasstransfer.2015.01.034
17. Liu, C.-L., Von Wolfersdorf, J., & Zhai, Y.-N. (2015). Time-resolved heat transfer characteristics for periodically pulsating turbulent flows with time varying flow temperatures. International Journal of Thermal Sciences, 89, 222–233. https://doi.org/10.1016/j.ijthermalsci.2014.11.008
18. Leriche, M., Rössner, W., & Weigand, B. (2015). Modelling of the condensation/evaporation of water droplets on a glass surface: Application to defogging. ASME-ATI-UIT 2015 Conference on Thermal Energy Systems: Production, Storage, Utilization and the Environment, 17 – 20 May, 2015, Napoli, Italy.
19. Leriche, M., Rössner, W., & Reister, H.and Weigand, B. (2015). Numerical investigation of droplets condensation on a windshield: prediction of fogging behavior. SAE 2015 World Congress & Exhibition - Paper 2015-01-0360.
20. Lamanna, G., Kamoun, H., Weigand, B., Manfletti, C., Rees, A., Sender, J., Oschwald, M., & Steelant, J. (2015). FLASHING BEHAVIOR OF ROCKET ENGINE PROPELLANTS. Atomization and Sprays, 25(10), Article 10. https://doi.org/10.1615/atomizspr.2015010398
21. Lamanna, G., Rack, P., Khafir, Y., Fulge, H., Fasoulas, S., Gröhan, G., Saengkaew, S., Weigand, B., & Steelant, J. (2015). Droplet sizing and infrared temperature measurements in superheated sprays. 8th European Symposium on Aerothermodynamics for Space Vehicles, ESA Lisbon, Portugal.
22. Lamanna, G., Rack, P., Khafir, Y., Fulge, H., Fasoulas, S., Gréhan, G., Saengkaew, S., Weigand, B., & Steelant, J. (2015). Droplet sizing and infrared temperature measurements in.
23. Lamanna, G., Kamoun, H., Weigand, B., Manfletti, C., Rees, A., Sender, J., Oschwald, M., & Steelant, J. (2015). Flashing behaviour of rocket engines propellants. Atomization and Sprays, Vol. 25, No. 10, Pp. 837–856, DOI: 10.1615/AtomizSpr.2015010398.

Dissertationen am ITLR

2020-Heute

2020- Ruberto, Stefano - Experimental Investigation of the Phase Change of Freely Suspended Supercooled Water Droplets

2020- Brack, Stefan -Time-resolved Transient Convective and Conjugate Heat Transfer Experiments Using IR Thermography

2020- Göhring, Michael - Numerical Investigation of Internal Two-Pass Gas Turbine Cooling Channels under the Influence of Rotation

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-110768

2020- Baggio, Martina - Volume of Fluid Numerical Simulation of Drop Impact on Superhydrophobic Complex Solid Surfaces Embedded in a Staggered Cartesian Grid

2020- Ronan A.R. Bernard - Macro and Micro Dynamics of Droplet Impact onto Wall-films made of different Liquids

https://iris.itlr.uni-stuttgart.de/index.php/s/SbvpdWm7NK1vt9i

2010-2020

2019 - Steurer, Anika -Application of the Transient Heat Transfer Measurement Technique Using Thermochromic Liquid Crystals in Networks of Intersecting Circular Passages

2019 - Reitzle, Martin - A Framework for the Direct Numerical Simulation of Phase Change Processes of Water at Low Temperature and Pressure

2019 - Ertl, Moritz - Direct Numerical Investigations of Non-Newtonian Drop Oscillations and Jet Breakup

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-107814

2019 - Weckenmann, Florian - Experimental investigation of isolated fluid particles under extreme conditions

2019 - Schweikert, Sven - Ein Beitrag zur Beschreibung der Transpirationskühlung an keramischen Verbundwerkstoffen

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-106859

2019 - Novotný, Pavel - Stability of swirl tube flow

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-106710

2019 - Johannes, Unrath - Untersuchungen zur Wärmeübertragung in Common Rail Höchstdruckinjektoren unter stationären und transienten dieselmotorischen Randbedingungen

2019 - Geppert, Anne K. - Experimental investigation of droplet wall-film interaction of binary systems

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-105949

2019 - Baab, Steffen - Quantitative diagnostics and thermodynamic modelling of fluid jets with reservoir states at supercritical pressure

2019 - Bork, Andrea - Numerische Untersuchung der Gemischbildung in Gasmotore

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-103383

2018 - Bhatia, Anuradha Ashok - Moisture sorption in porous media: experimental and numerical enquiries applicable to the automotive passenger compartment

2018 - Unrath, Johannes - Untersuchungen zur Wärmeübertragung in Common Rail höchstdruckinjektoren unter stationären und transienten dieselmotorischen Randbedingungen

2018 - Axtmann, Meriam - Investigations on heat transfer and pressure loss in staggered Pin Fin cooling arrays

2018 - Petzke, Thomas - Multidisziplinäre Kopplung von Sekundärluft-, Thermal- und mechanischem System zur Untersuchung von Triebwerkskomponenten bei stationären und transienten Prozessen

2017 - Biegger, Christoph - Flow and heat transfer investigations in swirl tubes for gas turbine blade cooling

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-91393

2017 - Schulte, Kathrin - Modelling of the initial ice growth in a supercooled liquid droplet

2017 - Chen, Lingling - Heat transfer enhancement in impingement systems with surface enlargement

2017 - Huber, Christoph - Neuartige Methode zur Bewertung des Schneeeintrags im Rohluftansaugsystem eines Automobils

2017 - Schulz, Sebastian - Flow and heat transfer phenomena in a complex impingement system for integrally cooled turbine blades

2017 - Brakmann, Robin G. - Increasing heat transfer in convective cooling systems with optimized surface structures

2016 - Förster, Felix - Laser-induced thermal acoustics: simultaneous velocimetry and thermometry for the study of compressible flows

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-90560

2016 - Dröske, Nils - Investigation of thermal loads onto a cooled strut injector inside a scramjet combustion chamber

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-90560

2016 - Winkler, Sven - Endwall contouring using numerical optimization in combination with the Ice Formation Method (IFM)

http://nbn-resolving.de/urn:nbn:de:bsz:93-opus-ds-88362

2015 - Manosroi, Woradej - Single droplet evaporation characteristics and behaviors at higher ambient temperatures

2015 - Rabadán, Edder José - Numerical investigation of a generic supersonic combustion chamber under realistic flight conditions

2015 - Egger, Christian - Wärmeübergangsuntersuchungen von innen gekühlten Gasturbinenschaufeln
unter Verwendung transienter Verfahren

2015 - Wohler, Anja - Mischungsuntersuchungen in einer beschleunigten kompressiblen Düsenströmung unter Verwendung verschiedener Injektorgeometrien

2014 - Vellaramkalayil, Jiby - Experimental and numerical investigations of different injection schemes in a supersonic combustion chamber

2014 - Mayer, Barbara - Investigation of pressure loss and heat transfer in a regular metallic porous structure

2014 - Zhu, Chengxiang - Numerical investigation on the instability and the primary breakup of inelastic non-Newtonian liquid jets

2014 - Rauschenberger, Philipp - Ein Verfahren für die direkte numerische Simulation des Gefriervorgangs von unterkühltem Wasser

2014 - Gomaa, Hassan - Modeling of liquid dynamic in spray laden compressor flows

2014 - Banuti, Daniel - Thermodynamic analysis and numerical modeling of supercritical injection

http://elib.uni-stuttgart.de/opus/volltexte/2015/9992

2014 - Kamoun, Hend - Flash-atomization and vaporization at near vacuum conditions

2013 - Ben Ahmed, Fahmi - Untersuchung von Active Clearance Control (ACC) Systemen zur Kühlung von Niederdruckturbinengehäusen

2013 - Kobiela, Bernhard - Wärmeübertragung in einer Zyklonkühlkammer einer Gasturbinenschaufel

2013 - Gauer, Markus - Simulation of the sloshing behaviour of two-phase flows in cryogenic rocket upper stages

2013 - Schüren, Simon - Numerische Untersuchung einer anwendungsnahen schrägen Prallkühlungskonfiguration in einer thermisch hochbelasteten Gasturbinenschaufel

2012 - Friedrich, Markus - Modellierung und numerische Simulation der Diesel-Direkteinspritzung auf Basis einer Eulerschen Beschreibung des Kraftstoffsprays unter Verwendung der Direct Quadrature Method of Moments

2012 - Lerch, Andreas - Untersuchungen zum Einfluss der Zyklonkühlung in einer Turbinenschaufel auf die adiabate Filmkühleffektivität

2012 - Domaschke, Norbert - Integriert numerisch-experimentelle Untersuchungen zum Wärmeübergang im Vorderkanten-Kühlkanal einer Gasturbinenschaufel

2012 - Hell, Annika - Validierung der Lasermesstechnik Laser-induzierte Thermische Akustik für die Anwedung in turbulenten, chemisch reagierenden Überschallfreistrahlen

2011 - Stotz, Ingo - Shock tube study on the disintegration of fuel jets at elevated pressures and temperatures

2011 - Höfler, Florian - Experimental investigations of wall integrated impingement configurations for thermally highly loaded gas turbine blades

2011 - Langener, Tobias - A contribution to transpiration cooling for aerospace applications using CMC walls

http://elib.uni-stuttgart.de/opus/volltexte/2011/6617

2011 - Kunstmann, Sébastien - A contribution to gas turbine combustor cooling using complex configurations

2010 - Barth, Tarik - Aerothermodynamische Untersuchungen facettierter Raumfahrzeuge unter Wiedereintrittsbedingungen

http://elib.uni-stuttgart.de/opus/volltexte/2010/5652

2010 - Scheuermann, Tobias - Untersuchungen zur Verbrennung in einer Scramjet-Brennkammer

2010 - Coletti, Filippo - Coupled flow field and heat transfer in an advanced internal cooling scheme

2010 - Heidrich, Peter - Experimentelle Bestimmung des inneren Wärmeübergangs bei gegossenen Gasturbinenschaufeln

2010 - Spring, Sebastian - Numerical prediction of jet impingment heat transfer

2010 - Sander, Wolfgang - Direkte Numerische Simulation von Zerfallsvorgängen in Zweiphasenströmungen im Bereich von Verbrennungsmotoren

2000-2010

2009 - Xing, Yunfei - Experimental investigation of impingement heat transfer characteristics on flat and roughened plates with different crossflow schemes

2009 - Zehner, Sebastian - Experimentelle Untersuchungen von Turbomaschinenkomponenten mit der Eisformationsmethode

2009 - Steinbrück, Helga - Numerische Optimierung von Turbomaschinenkomponenten unter Verwendung der Eisformationsmethode

2009 - Poser, Rico - Transient Heat Transfer Experiments in Complex Geometries Using Liquid Crystal Thermography

2009 - Schlottke, Jan - Direkte Numerische Simulation von Mehrphasenströmungen mit Phasenübergang

2009 - Suzzi, Daniele - Diesel nozzle flow and spray formation: coupled simulations with real engine validation

http://elib.uni-stuttgart.de/opus/volltexte/2009/4011

2009 - Chun, Jaechul - Experimental investigations of injection, mixing, and reaction processes in supersonic flow applications

http://elib.uni-stuttgart.de/opus/volltexte/2009/4439

2009 - Urban, Juliane - Numerische Untersuchung und Modellierung von Tropfen-Wand-Interaktionen

2009 - Rosenko, Eduard - Anwendung elektrostriktiver Gitter auf nichtreaktive, turbulente Hochgeschwindigkeits-Freistrahlen

2009 - Schwientek, Alexander O. - A contribution to modeling of flow and heat transfer in rotor-stator cavities for secondary air system network analysis

2008 - Maurer, Michael - Experimental and numerical investigations of convective cooling configurations for gas turbine combustors

http://elib.uni-stuttgart.de/opus/volltexte/2008/3500

2008 - Kissel, Harald - Filmkühlung bei komplexen Innenströmungen

2008 - Dietz, Christopher - Computation of heat transfer in internal flows with vortex-generating elements

2008 - Lauffer, Diane - Experimentelle Untersuchung und Optimierung der Kühlung von Brennkammerbauteilen stationärer Gasturbinen

http://elib.uni-stuttgart.de/opus/volltexte/2009/3929

2008 - Uddin, Naseem - Turbulence modeling of complex flows in CFD

http://elib.uni-stuttgart.de/opus/volltexte/2008/3638

2008 - Pape, Detlef - Experimentelle Untersuchung der Strömung und der Wärmeübertragung in 180°-Umlenkungen

http://elib.uni-stuttgart.de/opus/volltexte/2009/4474

2008 - Arnold, Richard - Experimentelle Untersuchungen zur Filmkühlung in Raketenbrennkammern

2007 - Henze, Marc - Experimentelle Untersuchung von Strömung und Wärmeübergang in Kühlkanälen mit wirbelerzeugenden Elementen

http://elib.uni-stuttgart.de/opus/volltexte/2008/3501

2007 - Graf, Frank - Numerische Simulation dreidimensionaler kompressibler Strömungen auf unstrukturierten Gittern

2006 - Seibel, Christian Marcus - Weiterentwicklung kombinierter experimenteller und numerischer Methoden zur Optimierung der Gemischbildung bei der Benzindirekteinspritzung

2006 - Brauckmann, Dennis - Experimentelle Untersuchung von Filmkühlungsvorgängen an konturierten Bohrungen

2006 - Maichle, Frank - Numerische Untersuchung und Modellierung von Wandinteraktionen in Zweiphasenströmungen

2006 - Sun, Han - On the vaporization of droplets at elevated pressure

2005 - Schubert, Sonja - Untersuchung von Strömungsfeld und Wärmeübergang in einem berippten Multipass-System zur internen Kühlung von Gasturbinenschaufeln

http://elib.uni-stuttgart.de/opus/volltexte/2005/2375

2005 - Wilms, Jochen - Evaporation of multicomponent droplets

2005 - Haasenritter, Andrea - Numerische Untersuchung und Optimierung von berippten Kühlkanalgeometrien für Gasturbinenschaufeln mit Genetischen Algorithmen

2005 - Hase, Matthias - Numerische Berechnung dreidimensionaler Transportvorgänge an angeströmten, sich verformenden Tropfen

2004 - Amro, Mahmoud - Untersuchung des Wärmeübergangs in einem Strömungskanal einer Gasturbinenschaufel

http://elib.uni-stuttgart.de/opus/volltexte/2005/2236

2004 - Rieber, Martin - Numerische Modellierung der Dynamik freier Grenzflächen in Zweiphasenströmungen

2002 - Klein, Markus - Direkte numerische Simulation des primären Strahlzerfalls in Einstoffzerstäuberdüsen

2002 - Zeh, Dietmar - Entwicklung und Einsatz einer kombinierten Raman/Mie-Streulichtmesstechnik zur ein- und zweidimensionalen Untersuchung

2001 - Stoll, Peter - Entwicklung eines parallelen Mehrgitterverfahrens zur Simulation der Verbrennung in kompressiblen und inkompressiblen Strömungen

2001 - Möbus, Helge - Euler- und Lagrange-Monte-Carlo-PDF-Simulation turbulenter Strömungs-, Mischungs- und Verbrennungsvorgänge

2001 - Lutum, Ewald - Experimentelle Filmkühlungsuntersuchungen zylindrischer u. konturierter Bohrungsgeometrien an gekrümmten Oberflächen

1990-2000

1998 - Roth, Norbert - Bestimmung des Brechungsindex in Einzeltropfen aus dem Streulicht im Bereich des Regenbogens

1997 - Schelkle, Markus - Lattice-Boltzmann-Verfahren zur Simulation dreidimensionaler Zweiphasenströmungen mit freien Oberflächen

1997 - Stuhler, Harald - Einfluß der inneren Freiheitsgrade auf Dissoziation, Stickoxidbildung und Ionisation

1997 - Funcke, Guido - Beeinflussung der Agglomeration feiner flüssiger Partikeln durch akustische Felder

1997 - Klenk, Wolfgang - Spektroskopische Untersuchungen der Relaxationszonen hinter Verdichtungsstößen in Luft mit einem Infrarot-Dioden-Laser

1997 - Karl, Alexander - Untersuchung der Wechselwirkung von Tropfen mit Wänden oberhalb der Leidenfrost-Temperatur

1994 - Gerlinger, Peter - Numerische Berechnung turbulenter Verbrennungsvorgänge mit einem impliziten LU-Verfahren

1994 - Anders, Klaus - Experimentelle und theoretische Untersuchung der Tropfenverdampfung für Knudsen-Zahlen im Übergangsbereich

1994 - Herrmann, Frank - Entwicklung eines optischen Meßverfahrens hoher räumlicher und zeitlicher Auflösung zur Bestimmung von Tropfengrößen

1993 - Dietrich, Stefan - Direktes Monte-Carlo-Simulationsverfahren für kontinuumsnahe Hyperschallströmungen mit chemischen Reaktionen

1993 - Geng, Weiqun - Numerische Berechnung des Prozessablaufs in einem Forschungsmotor

1993 - Laschütza, Helmut - Thermisches Nichtgleichgewicht in den Löschgrenzschichten von stationären Flammen vor gekühlten Wänden

1990 - Drtina, Peter - Koagulation und Satellitenbildung in tropfenbeladenen Strömungen

1990 - Brenn, Günter - Untersuchungen zu Schwingungsbewegungen von Flüssigkeitstropfen

1990 - Kraut, Thomas - Optische Untersuchungen an Tropfenkollektiven hoher Ordnung

vor 1990

1988 - Kasal, Peter - Räumlich hochauflösende Flammendiagnostik mit Hilfe der spontanen Ramanspektroskopie

1987 - Jaberg, Helmut E. - Entwicklung eines Rechenverfahrens zur Behandlung viskoser reagierender Strömungen

1987 - König, Gerold - Theoretische und experimentelle Untersuchungen über die Struktur von stationären Verdichtungsstößen in Gas-Partikel-Dispersionen

1985 - Walther, Rainer - Ein Differenzenverfahren für chemisch reagierende Strömungen

1985 - Westerdorf, Michael - Ein automatisiertes Messverfahren für die Untersuchung der Wärmeleitung in einem großen Knudsenzahlbereich

1985 - Offenhäuser, Friedrich - Kinetisches Modell für den Schwingungsenergieaustausch in strömenden Molekülgasgemischen

1984 - Arndt, Stefan - Massenspektrometrische Messungen hinter einfallenden Stoßwellen

1982 - Schlott, Burckhard - Numerische Berechnung der stoßinduzierten Verbrennung in zweidimensionalen H2/Luft-Überschallströmungen unter Berücksichtigung turbulenter Mischungsvorgänge und der elementaren chemischen Kinetik

1981 - Dasing, Eckhard - Flammendiagnose mit Elektronenstrahl-Methode - Untersuchung von Elementarreaktionen in Flammen bei Unterdruck mittels Elektronenstrahlfluoreszenz

1979 - Reidelbach, Heinrich - Ein theoretisches Modell der thermischen Zersetzung einzelner Kohlekörner

1978 - Hamad, Hanaa - Struktur schwacher Stosswellen in monodispersen Systemen

1976 - Nötzold, Dieter - Konturoptimierung von Schubdüsen mit hochenergetischen, chemisch relaxierenden Strömungen durch Anwendung des Prinzips von Bellmann

1976 - Oyegbesan, Adeleke O. - Numerische Lösung des partiellen Differentialgleichungssystems chemisch reagierender Gasgrenzschichten

1975 - Bauer, Gerd - Experimentelle und theoretische Untersuchung eines laminaren Plasma-Freistrahls

1974 - Haug, Walter - Austauschvorgänge in einem laminaren Plasmafreistrahl

1972 - Dienger, Gerwin - Der Einfluß sekundärer Oxydatorzufuhr durch einen porösen Brennstoffkörper auf den hybriden Verbrennungsvorgang

1971 - Renz, Ulrich - Verdunstung mit und ohne Zerfallreaktion der Flüssigkeit

1965 - Bose, Tarit - Der Wärmeübergang von Argon- und Stickstoff-Plasma an eine kalte Wand

1964 - Lillich, Karl Heinz - Die Behandlung magnetofluidodynamischer Strömungsvorgänge in thermodynamischen Zustandsdiagrammen

Here you can access most of the dissertations of former ITLR doctoral students:

Link to Website Verlag Dr.Hut

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Scientific articles from the ITLR since 2010

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2023

2022

2021

2020

2019

2018

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Dissertationen am ITLR

2020-Heute

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2000-2010

1990-2000

vor 1990

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Bernhard Weigand

Susanne Stegmeier

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