M.Sc. Robert Kasper

Forschungsgebiet

Anschrift:

Universität Rostock
Fakultät für Maschinenbau und Schiffstechnik
Lehrstuhl für Modellierung und Simulation
Albert-Einstein-Str. 2
18059 Rostock, Deutschland

Raum:        I / 104

Telefon:     +49 381 498 9426

Fax:            +49 381 498 9152

E-Mail:       robert.kasper(at)uni-rostock.de

Forschungsgebiete
  • Turbulenzmodellierung
  • Thermo-Fluid-Dynamik
  • Disperse Mehrphasenströmungen
  • Fouling von wärmeübertragenden Oberflächen
Veröffentlichungen

Fachzeitschriftenbeiträge (peer-reviewed)

1. | Deponte H., Kasper R., Schulte S., Augustin W., Turnow J., Kornev N., & Scholl S. (2020). Experimental and numerical approach to resolve particle deposition on dimpled heat transfer surfaces locally and temporally. Chemical Engineering Science, 227, 115840. DOI: 10.1016/j.ces.2020.115840

2. | Kasper R., Turnow J., & Kornev N. (2019). Multiphase Eulerian-Lagrangian LES of particulate fouling on structured heat transfer surfaces.  International Journal of Heat and Fluid Flow, 79, 108462. DOI: 10.1016/j.ijheatfluidflow.2019.108462

3. | Turnow J., Kasper R., & Kornev N. (2018). Flow structures and heat transfer over a single dimple using hybrid URANS-LES methods. Computers & Fluids, 172, 720-727. DOI: 10.1016/j.compfluid.2018.01.014

4. | Kasper R., Deponte H., Michel A., Augustin W., Turnow J., Scholl S., & Kornev N. (2018). Numerical investigation of the interaction between local flow structures and particulate fouling on structured heat transfer surfaces. International Journal of Heat and Fluid Flow, 71, 68-79. DOI: 10.1016/j.ijheatfluidflow.2018.03.002

5. | Kasper R., Turnow J., & Kornev N. (2017). Numerical modeling and simulation of particulate fouling of structured heat transfer surfaces using a multiphase Euler-Lagrange approach.  International Journal of Heat and Mass Transfer, 115, 932–945. DOI: 10.1016/j.ijheatmasstransfer.2017.07.108

Buchbeiträge (peer-reviewed)

1. | Kasper R., Turnow J., & Kornev N. (2019). Simulation of particulate fouling and its influence on friction loss and heat transfer on structured surfaces using a phase-changing mechanism. In Nóbrega J. M., & Jasak H., editors, OpenFOAM: Selected Papers of the 11th Workshop, chapter 31, 266-290, Springer Nature Switzerland AG. DOI: 10.1007/978-3-319-60846-4_31

Konferenzbeiträge (peer-reviewed)

1. | Kasper R., Turnow J., & Kornev N. (2020). Numerical investigation of heat transfer and particulate fouling in turbulent channel flows over dimpled surfaces. 5th Thermal and Fluids Engineering Conference, April 5-8, 2020, New Orleans-LA, USA.

2. | Kasper R., Turnow J., & Kornev N. (2019). Prediction of particulate fouling on structured surfaces using multiphase Eulerian-Lagrangian LES. Eleventh International Symposium on Turbulence and Shear Flow Phenomena (TSFP11), July 30 - August 2, 2019, Southampton, UK.

3. | Kasper R., Turnow J., & Kornev N. (2018). Multiphase Eulerian-Lagrangian LES of particulate fouling on structured heat transfer surfaces. Ninth International Symposium on Turbulence, Heat and Mass transfer (THMT-18), July 10-13, 2018, Rio de Janeiro, Brazil.

4. | Deponte H., Kasper R., Michel A., Turnow J., Augustin W., Kornev N., & Scholl S. (2018). Experimentelle und numerische Untersuchung des Ablagerungsverhaltens von Partikeln an Dellenstrukturen.Jahrestreffen der Fachgruppe Wärme- und Stoffübertragung, DECHEMA, Bremen, Deutschland.

5. | Kasper R., Turnow J., & Kornev N. (2017). Analysis of the thermo-hydraulic performance of structured heat transfer surfaces under consideration of particulate fouling using a multiphase Euler-Lagrange approach. 12th OpenFOAM Workshop (OFW12), 24-27 July 2017, Exeter, UK.

6. | Kasper R., Turnow J., & Kornev N. (2017). Numerical investigation of the interaction between local flow structures and particulate fouling on structured heat transfer surfaces. Tenth International Symposium on Turbulence and Shear Flow Phenomena (TSFP10), July 6-9, 2017, Chicago-IL, USA.

7. | Turnow J., Kasper R., & Kornev N. (2017). Flow structures and heat transfer over a single spherical dimple using hybrid URANS-LES methods. Tenth International Symposium on Turbulence and Shear Flow Phenomena (TSFP10), July 6-9, 2017, Chicago-IL, USA.

8. | Kasper R., Turnow J., & Kornev N. (2017). Thermo-hydraulic analysis of structured heat transfer surfaces under consideration of particulate fouling using a multiphase Eulerian-Lagrangian method. Heat Exchanger Fouling and Cleaning Conference XII, June 11-16, 2017, Aranjuez (Madrid), Spain.

9. | Kasper R., Turnow J., & Kornev N. (2017).Thermo-hydraulische Analyse strukturierter Oberflächen unter Berücksichtigung von partikulärem Fouling. Jahrestreffen der Fachgruppe Wärme- und Stoffübertragung, DECHEMA, Bruchsal, Deutschland.

10. | Kasper R., Turnow J., & Kornev N. (2016). Simulation of Particle Fouling and its Influence on Friction Loss and Heat Transfer on Structured Surfaces using Phase Changing Mechanism. ICVFM 2016 Rostock, Germany, pp. 48-50.

11. | Kasper R., Turnow J., & Kornev N. (2016). Simulation of Particle Fouling and its Influence on Friction Loss and Heat Transfer on Structured Surfaces using Phase Changing Mechanism. 11th OpenFOAM Workshop (OFW11), 26-30 June 2016, Guimarães, Portugal.

12. | Kasper R., Turnow J., & Kornev N. (2016). Numerische Simulation von Partikelfouling auf strukturierten, wärmeübertragenden Oberflächen. Jahrestreffen der Fachgruppe Wärme- und Stoffübertragung, DECHEMA, Kassel, Deutschland

13. | Kasper R., Turnow J., Klunker J., & Kornev N. (2015). Simulation of particle fouling and its influence on friction loss and heat transfer on structured surfaces using Phase changing mechanism.8th International Symposium on Turbulence, Heat and Mass Transfer (THMT8), September 15-18 2015, Sarajevo, Bosnia and Herzegovina.

14. | Klunker J., Turnow J., Kornev N., & Kasper R. (2015). Wärmeübertragung auf strukturierten Oberflächen unter Berücksichtigung von Partikel-Fouling. Jahrestreffen Wärme- und Stoffübertragung, DECHEMA, Leipzig, Deutschland.

Lebenslauf
seit 2015 wiss. Mitarbeiter, Lehrstuhl für Modellierung und Simulation, Universität Rostock
2012 - 2014 Master (M.Sc.) Schiffs- und Meerestechnik, Universität Rostock
2008 - 2012 Bachelor (B.Sc.) Maschinenbau, Otto-von-Guerike-Universität Magdeburg
2007 - 2008 Zivildienst, Universitätsklinikum Magdeburg
2007 Abitur, Kurfürst-Joachim-Friedrich-Gymnasium Wolmirstedt
Praktika
04/2012 - 08/2012 MET Motoren- und Energietechnik GmbH, Rostock
07/2008 - 08/2008 SKET Maschinen- und Anlagenbau GmbH, Magdeburg