Articles in conference proceedigs
[1] Y. Sakai and M. Uhlmann. High-resolution numerical analysis of turbulent flow in straight ducts with rectangular cross-section. In W.E. Nagel, D.B. Kröner, and M.M. Resch, editors, High Performance Computing in Science and Engineering '15, Transactions of the High Performance Computing Center, Stuttgart (HLRS), pages 301--313. Springer, 2016. [ bib | DOI ]
[2] Y. Sakai, M. Uhlmann, and G. Kawahara. High-resolution numerical analysis of turbulent flow in straight open ducts with rectangular cross-section. Proc. 15th EUROMECH Eur. Turb. Conf., Delft, The Netherlands, 2015. [ bib ]
[3] T. Doychev and M. Uhlmann. Settling of finite-size particles in an ambient fluid: a numerical study. In M.H. Kim, editor, ICMF 2013, Proc. 8th Int. Conf. Multiphase Flow, Jeju, Korea, 2013. [ bib | .pdf ]
[4] M. Uhlmann and T. Doychev. Finite size particles in homogeneous turbulence. In K. Binder, G. Münster, and M. Kremer, editors, NIC Symposium 2012, volume 45 of Publication series of the John von Neumann Institute for Computing, pages 377--384, Jülich (Germany), February 2012. [ bib | .pdf ]
[5] Clemens Chan-Braun, Manuel García-Villalba, and Markus Uhlmann. Direct numerical simulation of rough wall open channel flow. In J. K. Eaton, R. Friedrich, A. V. Johansson, N. Kasagi, H. J. Sung, and S. Tavoularis, editors, Proc. 7th Int. Symp. Turbulence and Shear Flow Phenomena, Ottawa, Canada, July 28 - 31 2011. [ bib | .pdf ]
[6] C. Chan-Braun, M. García-Villalba, and M. Uhlmann. Direct numerical simulation of sediment transport in turbulent open channel flow. In W.E. Nagel, D.B. Kröner, and M.M. Resch, editors, High Performance Computing in Science and Engineering '10, Transactions of the High Performance Computing Center, Stuttgart (HLRS), pages 295--306. Springer, 2011. [ bib | DOI ]
[7] T. Doychev and M. Uhlmann. A numerical study of finite size particles in homogeneous turbulent flow. In S. Balachandar and J.S̃inclair Curtis, editors, ICMF 2010, Proc. 7th Int. Conf. Multiphase Flow, Tampa, USA, 2010. [ bib | .pdf ]
[8] C. Chan-Braun, M. García-Villalba, and M. Uhlmann. Numerical simulation of fully resolved particles in rough-wall turbulent open channel flow. In S. Balachandar and J.S̃inclair Curtis, editors, ICMF 2010, Proc. 7th Int. Conf. Multiphase Flow, Tampa, USA, 2010. [ bib | .pdf ]
[9] A. Sekimoto, A. Pinelli, M. Uhlmann, and G. Kawahara. The effect of coherent structures on the secondary flow in a square duct. In B. Eckhardt, editor, Advances in Turbulence XII, Springer Proceedings in Physics 132, pages 329--332, 2009. [ bib ]
[10] M. Uhlmann, G. Kawahara, and A. Pinelli. Travelling waves in a straight square duct. In B. Eckhardt, editor, Advances in Turbulence XII, Springer Proceedings in Physics 132, pages 585--588, 2009. [ bib | .pdf ]
[11] A. Sekimoto, K. Sekiyama, G. Kawahara, M. Uhlmann, and A. Pinelli. Buoyancy effects on low-reynolds-number turbulent flow in a horizontal duct. In K. Hanjalić, Y. Nagano, and S. Jakirlić, editors, Turbulence, Heat and Mass Transfer 6, pages 539--542, 2009. [ bib ]
[12] M. Uhlmann and J. Fröhlich. Transport of particles in horizontal channel flow. In W. Nagel, W. Jäger, and M. Resch, editors, High Performance Computing in Science and Engineering '07, Transactions of the High Performance Computing Center, Stuttgart (HLRS), pages 351--369. Springer, 2007. [ bib | DOI | .pdf ]
[13] M. Uhlmann. Investigating turbulent particulate channel flow with interface-resolved DNS. In M. Sommerfeld, editor, ICMF 2007, Proc. 6th Int. Conf. Multiphase Flow, Leipzig, Germany, 2007. [ bib | .pdf ]
[14] M. Uhlmann, A. Pinelli, A. Sekimoto, and G. Kawahara. Characterisation of marginally turbulent square duct flow. In J.M. Palma and A.S̃ilva Lopes, editors, Advances in Turbulence XI, Proc. 11th EUROMECH Eur. Turb. Conf., pages 41--43, Porto, Portugal, 2007. Springer Proceedings in Physics 117. [ bib | .pdf ]
[15] M. Uhlmann, A. Pinelli, A. Sekimoto, and G. Kawahara. Coherent structures in marginally turbulent square duct flow. In Y. Kaneda, editor, IUTAM Symposium on computational physics and new perspectives in turbulence, volume 4 of IUTAM Bookseries. Springer, 2006. [ bib | .pdf ]
[16] M. Uhlmann. Experience with DNS of particulate flow using a variant of the immersed boundary method. In P. Wesseling, E. Oñate, and J. Périaux, editors, Proc. ECCOMAS CFD 2006, Egmond aan Zee, The Netherlands, 2006. TU Delft. ISBN 90-9020970-0. [ bib | .pdf ]
[17] M. Uhlmann. DNS of finite-size heavy particles in vertical turbulent channel flow. Bulletin Am. Phys. Soc., 50(9):133, 2005. [ bib | .pdf ]
[18] A. Pinelli, M. Uhlmann, and G. Kawahara. Minimal requirements for self-sustained turbulence in a square duct: a numerical investigation. Bulletin Am. Phys. Soc., 50(9):264, 2005. [ bib | .pdf ]
[19] M. Uhlmann and M. Nagata. Linear stability of pressure-driven flow through a straight duct with internal heating. In K. Hishida, editor, Proc. 2005 Annual Meeting, Japan Society of Fluid Mechanics, pages 293--297, Tokyo, 2005. [ bib ]
[20] M. Uhlmann. An improved fluid-solid coupling method for DNS of particulate flow on a fixed mesh. In M. Sommerfeld, editor, Proc. 11th Workshop Two-Phase Flow Predictions, Merseburg, Germany, 2005. Universität Halle. ISBN 3-86010-767-4. [ bib | .pdf ]
[21] M. Uhlmann and A. Pinelli. Performance of various fluid-solid coupling methods for DNS of particulate flow. In S. Balachandar and A. Prosperetti, editors, IUTAM Symposium on Computational Approaches to Multiphase Flows, volume 81 of Fluid Mechanics and its Applications, pages 215--223. Springer, 2006. [ bib | .pdf ]
[22] M. Uhlmann. Numerical simulation of particulate flows: comparison of fictitious domain methods with direct and indirect forcing. In H.I. Andersson and P.-A. Krogstad, editors, Advances in Turbulence X, Proc. 10th Eur. Turb. Conf., pages 415--418, Trondheim, Norway, 2004. [ bib | .pdf ]
[23] J. Fröhlich and M. Uhlmann. New polynomial wavelets and their use for the analysis of wall--bounded flows. CD-ROM Proc. 16ème Congrès Francais de Mécanique, Nice, 2003. [ bib ]
[24] M. Uhlmann and J. Fröhlich. Analysis of channel flow using improved polynomial wavelets for the interval. volume 2 of Proc. 3rd Int. Symp. Turbulence and Shear Flow Phenomena, pages 841--846, Sendai, Japan, 2003. [ bib | .pdf ]
[25] M. Uhlmann and J. Fröhlich. Local spectra in plane channel flow using wavelets designed for the interval. In I.P. Castro, P.E. Hancock, and T.G. Thomas, editors, Advances in Turbulence IX, Proc. 9th Eur. Turb. Conf., pages 111--114, Southampton, UK, 2002. [ bib | .pdf ]
[26] M. Uhlmann, A. Pinelli, J. Jiménez, and G. Kawahara. The influence of wall-porosity upon the near-wall turbulence dynamics. In C. Dopazo et al., editor, Advances in Turbulence VIII, Proc. 8th Eur. Turb. Conf., pages 463--466, Barcelona, Spain, 2000. [ bib | .ps.gz ]
[27] C. Berthon, F. Coquel, J.-M. Hérard, and M. Uhlmann. An approximate Riemann solver to compute compressible flows using second-moment closures. AIAA Paper 97-2069, 13th AIAA CFD Conference, Snowmass (CO), USA, 1997. [ bib | DOI ]
[28] G. Brun, J.-M. Hérard, L. Leal de Sousa, and M. Uhlmann. Suitable algorithms to compute turbulent compressible flows using second-moment closures. ASME FED Summer Meeting paper 97-3114, Vancouver, Canada, 1997. [ bib ]
[29] G. Brun, J.-M. Hérard, D. Jeandel, and M. Uhlmann. Computation of turbulent shock waves using second-moment closures. In F. Durst, B.E. Launder, F.W. Schmidt, and J.H. Whitelaw, editors, Proc. 11th Symp. Turb. Shear Flows, pages 32.25--32.30, Grenoble, France, 1997. [ bib ]
[30] G. Brun, J.M. Hérard, L. Leal de Sousa, and M. Uhlmann. Numerical modelling of turbulent compressible flows using second order models. In F. Benkhaldoun and R. Vilsmeier, editors, Finite Volumes for Complex Applications, First Int. Symp., pages 337--346, Rouen, France, 1996. [ bib ]
[31] G. Brun, J.M. Hérard, L. Leal de Sousa, and M. Uhlmann. Second order entropy consistent modelling of turbulent compressible flows. In S. Gavrilakis, L. Machiels, and P.A. Monkewitz, editors, Advances in turbulence VI, Proc. 6th Eur. Turb. Conf., pages 299--300, Lausanne, CH, 1996. [ bib ]
[32] M. Uhlmann, I. Yudiana, G. Brun, and M. Buffat. Numerical simulations of a shock reflection on a flat plate. In C.-J. Chen, C. Shih, J. Lienau, and R.J. Kung, editors, Flow Modelling and Turbulence Measurements VI, pages 389--398, Tallahassee, USA, 1996. [ bib ]

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