Academic output

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Academic output as of September 2022 (source:Scopus)

Habillitation Memoire, Teo Burghelea: "TRANSPORT PHENOMENA IN STRUCTURED FLUIDS: - A COMPLEX INTERPLAY"

BOOKS

BOOK CHAPTERS

  1. Preface, V. Bertola, T. Burghelea - Transport Phenomena in Complex Fluids, Springer, 2020.

  2. Experimental Methods to Characterize Complex Fluids, V. Bertola, T. Burghelea - Trans- port Phenomena in Complex Fluids, Springer, 2020.

  3. Transport Phenomena in Viscoplastic Materials, T. Burghelea - Transport Phenomena in Complex Fluids, Springer, 2020.

4. Transport Phenomena in Viscoelastic Fluids, T. Burghelea - Transport Phenomena in Complex Fluids, Springer, 2020.

PEER REVIEWED JOURNAL PUBLICATIONS

38. E. Younes, V. Bertola, T. Burghelea, 2020. Slippery flows of a Carbopol gel in a microchannel to appear Phys. Rev. Fluids, 2020.

37. E. Younes, M. Himl., Z. Stary, V. Bertola, T. Burghelea, 2020. On the elusive nature of Carbopol gels: “model”, weakly thixotropic, or time- dependent viscoplastic materials? Journal of Non-Newtonian Fluid Mechanics 281, 104315, 2020.

36. D. Tarlet, E. Younes, S. Roux, A. Levy, T. Burghelea, Stopping of a solid object in an elasto-viscoplastic material, Journal of Non Newtonian Fluid Mechanics 263 (120-129), 2018.

35. A. Soulies, J. Aubril, C. Castelain, T. Burghelea, Characterisation of Elastic Turbulence in a serpentine micro-channel, Physics of Fluids 29, 083102, 2017.

34. T. Burghelea M. Moyers-Gonzalez and R. Sainudiin, A nonlinear dynamical system ap- proach for the yielding behaviour of a viscoplastic fluid, Soft Matter, 13, 20204-2039, 2017.

33. A. Soulies, J. Pruvost, C. Castelain, T. Burghelea, Microscopic flows of suspensions of the green non-motile Chlorella microalga at various volume fractions: applications to intensified photo bio reactors, Journal of Non Newtonian Fluid Mechanics, 231, 91-101, 2016.

32. A. Soulies, C. Castelain, T. Burghelea, J. Legrand, J. F. Cornet, H. Marec, J. Pruvost Investigation and modeling of the effects of light spectrum and incident angle on the growth of Chlorella vulgaris in photobioreactors, Biotechnology Progress, 32, 2, 247-261 (2016).

31. R. Sainudiin, M. Moyers-Gonzalez, and T. Burghelea A Microscopic Gibbs field model for the macroscopic yielding behavior of a viscoplastic fluid, Soft Matter, 11, 5531-5545, 2015.

30. B. Traore, C. Castelain, and T. Burghelea Efficient heat transport in a regime of elastic turbulence, Journal of Non-Newtonian Fluid Mechanics, 223, 62-76, 2015.

29. Z. Stary ́, T. Burghelea Necking Failure and Physical Rupture of a Molten Low Density Polyethylene (LDPE) Sample Undergoing Uniaxial Extension, Proceedings of the ”Novel trends in rheology VI” AIP Conf. Proc. (2015).

28. Z. Stary, M. Papp and T. Burghelea Deformation regimes, failure and rupture of a low den- sity polyethylene (LDPE) melt undergoing uniaxial extension, Journal of Non-Newtonian Fluid Mechanics, 219, 35-49, 2015.

27. A. Poumaere, M. Moyers-Gonzalez, C. Castelain, and T. Burghelea Unsteady laminar flows of a Carbopol gel in the presence of wall slip Journal of Non-Newtonian Fluid Me- chanics, 205, 28-40, 2014.

26. Z. Kebiche, C. Castelain and T. Burghelea Experimental observation of the Rayleigh - Benard convection in a yield stress fluid - Journal of Non-Newtonian Fluid Mechanics, 203, 9-23, 2014.

25. Z. Stary ́, T. Burghelea and H. Mu ̈nstedt, On the viscosity maximum during uniaxial extension: Material property or measuring artefact? , Proceedings of the ”Novel trends in rheology III” AIP Conf. Proc. 1526, 160 - 167 (2013).

24. A. Souilles, J. Provoust, J. Legrand, C. Castelain and T. Burghelea, Rheological properties of suspensions of the green micro-alga Chlorella vulgaris at various volume fractions - Rheologica Acta, 52, 589-605, 2013.

23. E. Weber, M. Moyers-Gonzalez, T. Burghelea, Thermorheological properties of a Carbopol gel - Journal of Non-Newtonian Fluid Mechanics, 183-184, 14-24, 2012.

22. T. Burghelea, H. J. Griess and H. Mu ̈nstedt , An in-situ investigation of the draw resonance phenomenon in film casting of a polypropylene melt, Journal of Non Newtonian Fluid Mechanics, 173, 87-96, 2012.

21. T. Burghelea, Z. Stary ́ and H. Mu ̈nstedt, Response to the Reply to: On the viscosity overshoot during the uniaxial extension of a low density polyethylene by Rasmussen et al., Journal of Non Newtonian Fluid Mechanics, 171, 107-108, 2012.

20. T. Burghelea, Z. Stary ́ and H. Mu ̈nstedt , On the ”viscosity overshoot” during the uniaxial extension of a low density polyethylene, Journal of Non Newtonian Fluid Mechanics, 166, 1198-1209, 2011.

19. H. J. Grieß, T. Burghelea and H. Mu ̈nstedt, Velocity measurements on a polypropylene melt during extrusion through a flat coat-hanger die , Polym. Eng. Sci, 52 (3), 615-624 2011.

18. M. Moyers Gonzalez, T. Burghelea , Julian Mak, Linear Stability Analysis of an Elastovis- coplastic fluid with internal microstructure, - Journal of Non-Newtonian Fluid Mechanics, 166, (9-10), 515-531, 2011.

17. T. Burghelea and I. A. Frigaard, Unstable parallel flows triggered by a fast chemical reaction - Journal of Non-Newtonian Fluid Mechanics, 166, (9-10), 500-514, 2011.

16. T. Burghelea, H. J. Grieß and H. Mu ̈nstedt, Comparative investigations of surface in- stabilities (sharkskin) of a linear and a long-chain branched polyethylene - Journal of Non- Newtonian Fluid Mechanics, 165, 1093-1104, 2010.

——↑—— Appointment at LTeN (UMR 6607) as CR1, October 2010——-↑——

15. T. Burghelea, Z. Stary ́ and H. Mu ̈nstedt, Local measurements of the elongational viscosity of polymer melts , Proceedings of the ”Novel trends in rheology III” AIP Conf. Proc. 1152, 183 (2009), DOI: 10.1063/1.3203269.

14. T. Burghelea, Zdenˇek Stary ́ and Helmut Mu ̈nstedt , Local versus global measurements of the extensional viscosity, Journal of Rheology 53(6), 1363-1377, 2009.

13. B. Gu ̈zel, T. I. Burghelea , I.A. Frigaard, D.M. Martinez Observation of laminar-turbulent transition of a yield stress fluid in Hagen-Poiseuille flow , Journal of Fluid Mechanics 627, 97-128 (2009).

12. A. Putz, T. I. Burghelea, The solid - fluid transition in a yield stress shear thinning physical gel, Rheologica Acta 48 6, 673-689 (2009).

–↑– Postdoc at the Institute of Polymer Materials, Univ. of Erlangen-Nueremberg, August 2008–↑–

11. A. Putz, T. I. Burghelea, I.A. Frigaard, D.M. Martinez, Settling of an isolated spherical particle in a yield stress shear thinning fluid, Phys. Fluids 20, 033102 (2008).

10. T. Burghelea, K. Wielage-Burchard, I. A. Frigaard, D. M. Martinez and J. J. Feng , A novel low inertia shear flow instability triggered by a chemical reaction Phys. Fluids 19, 083102 (2007).

9. T. Burghelea, E. Segre and V. Steinberg , Elastic turbulence in a von Karman swirling flow between disks, Phys. Fluids 19, 053104 (2007).

8. T. Burghelea, E. Segre and V. Steinberg , Role of elastic stresses in statistical and scaling properties of elastic turbulence, Phys. Rev. Lett. 96, 214502 (2006).

——↑—— Postdoc at University of British Columbia, August 2005——-↑——-

7. T. Burghelea, E. Segre and V. Steinberg , Validity of Taylor hypothesis in a random spatially smooth flow, Phys. Fluids 17, 103101 (2005).

6. T. Burghelea, E. Segre and V. Steinberg , Statistics of particle pair separations in the elastic turbulent flow of a dilute polymer solution, Europhys. Lett. 68, 529 (2004).

5. T. Burghelea, E. Segre, and V. Steinberg, Mixing by polymers: experimental test of decay regime of mixing, Phys. Rev. Lett. 92, 164501 (2004).

4. T. Burghelea, E. Segre, I. Bar-Joseph, A. Groisman and V. Steinberg, Chaotic flow and efficient mixing in a micro-channel with a polymer solution, Phys. Rev. E. 69, 0666305 (2004).

3. T. Burghelea, V. Steinberg and P. H. Diamond, Internal viscoelastic waves in a circular Couette flow of a dilute polymer solution, Europhys. Lett. 60 (5), 704 (2004).

2. T. Burghelea and V. Steinberg , Wave drag due to generation of capillary-gravity surface waves, Phys. Rev. E 66, 051204 (2002).

1. T. Burghelea and V. Steinberg , Onset of wave drag due to generation of capillary-gravity waves by a moving object as a critical phenomenon, Phys. Rev.

Lett. 86, 2557-2560 (2001).

—-↑——- PhD at the Weizmann Institute of Science, May 2000—–↑——

T. Burghelea, Elastic Turbulence and Mixing in a Dilute Polymer Solution, PhD thesis, Weizmann Institute of Science, 2005.