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Education / Academic Degrees

• 2000 Habilitation, Mechanical Engineering, Aachen University of Technology (RWTH), Germany
• 1994 Doctorate, Mechanical Engineering, Aachen University of Technology (RWTH), Germany, First Class with Honours
• 1989 Diploma, Mechanical Engineering (Equivalent to Masters Degree), Aachen University of Technology (RWTH), Germany

Professional Experience / Positions Held

• 01/06 – present Full Professor, Chair of Fluid Dynamics, Dept. Mechanical Engineering, Darmstadt University of Technology, Germany
• 06/04 – 12/05 Full Professor, Chair of Fluid Dynamics, Dept. Applied Mechanics, Darmstadt University of Technology, Germany
• 09/00 – 05/04 Full Professor, Hydromechanics, Dept. Civil Engineering, Darmstadt University of Technology, Germany
• 05/97 – 08/00 Scientific Assistant, Dept. Mechanical Engineering, Aachen University of Technology (RWTH), Germany
• 05/95 – 04/97 Post Doc, Center for Turbulence Research, Stanford University
• 10/89 – 04/95 Researcher, Dept. Mechanical Engineering, Aachen University of Technology (RWTH), Germany

Professional Activities

• 2001 – 2004 Editorial board member: Continuum Mechanics and Thermodynamics
• 2002 – 2008 Editorial board member: Fluid Dynamics Research
• 2002 – Editorial board member: Theoretical and Computational Fluid Dynamics
• 2004 – Chief Editor of Alexander-von-Humboldt-Stiftung in Fluid Mechanics
• 2004 – Editorial board member: Journal of the Calcutta Mathematical Society
• 2000 – 2005 Coordinator of DFG Research Group: Interdisciplinary Turbulence Initiative (ITI) between physicists and fluid mechanicists
• 2005 Coordinator of the BMBF key topic: Turbulence in Energy Techniques
• 2011 – Editorial Board Atlantis Studies in Mathematical Physics: Theory and Applications

Main Research Fields

• Turbulence theory and modelling
• Laminar and turbulent flow simulation (DNS, LES, RANS)
• Analytic methods in fluid mechanics
• Computer algebra methods in hydromechanics
• Level-set methods for interface and contact phenomena
• Hydrodynamic stability, shallow water and thin film theory
• Theory of premixed combustion and stochastic combustion models

Publications

Scientific Qualification

• Numerische Simulation der Ausbreitung und des Verlöschens von turbulenten Flammen bei adiabater Expansion am Beispiel eines eindimensionalen Ottomotors, Diplomarbeit RWTH Aachen, (1989)
• Herleitung und Lösung einer Längenmaß- und Dissipations-Tensorgleichung für turbulente Strömungen, Dissertation RWTH Aachen, (1994)
• Symmetrie, Invarianz und Selbstähnlichkeit in der Turbulenz, Habilitationsschrift RWTH Aachen, (2000)

Refereed Archival Journals

• Oberlack M., Peters N.: Closure of the Two-Point Correlation Equation as a Basis of Reynolds-Stress Models, Applied Scientific Research, vol. 51, 533-538, (1993)
• Oberlack M.: Non-Isotropic Dissipation in Non-Homogeneous Turbulence, J. Fluid Mech., vol. 350, pp. 351-374, (1997)
• Oberlack M.: Similarity in Non-Rotating and Rotating Turbulent Pipe Flows, J. Fluid Mech., vol. 379, pp. 1-22, (1999)
• Oberlack M.: Symmetries and Scaling-Laws in Turbulence, Zeitschrift für Angewandte Mathematik und Mechanik (ZAMM), vol. 79, pp. S123-S126, (1999)
• Oberlack M.: Symmetries, Invariance and Scaling-Laws in Inhomogeneous Turbulent Shear Flows, Flow, Turbulence and Combustion, vol. 62(2), pp. 111-135, (1999)
• Oberlack M.: Asymptotic Expansion, Symmetry Groups and Invariant Solutions of Laminar and Turbulent Wall-Bounded Flows, Zeitschrift für Angewandte Mathematik und Mechanik (ZAMM), vol. 80(11–12), pp. 791-800, (Special Issue der ZAMM anläßlich des 125igsten Geburtstags von Ludwig Prandtl), (2000)
• Oberlack M., Arlitt R., Peters N.: On Damköhler Statistics in Homogeneous Combustion, Combustion Theory and Model ling., vol. 4, pp. 495–509, (2000)
• Oberlack M.: Unified Approach for Symmetries in Plane Parallel Turbulent Shear Flows, J. Fluid Mech., vol. 427, pp. 299-328, (2001)
• Oberlack M., McComb W.D., Quinn A.: Solution of Functional Equations and Reduction of Dimension in the Local Energy Transfer Theory of Turbulence, Phys. Rev. E. vol. 63(02), pp. 026308-1–026308-8, (2001)
• Oberlack M., Wenzel H., Peters N.: On Symmetries and Averaging of the G-equation for Premixed Combustion, Combustion Theory and Model ling., vol. 5, pp. 363Ð383, (2001)
• Oberlack M.: On the Decay Exponent of Isotropic Turbulence, Proc. Appl. Math. Mech. (PAMM), vol. 1, pp. 294-297, (2002)
• Oberlack M., Guenther S.: Shear-Free Turbulent Diffusion – Classical and New Scaling Laws, Fluid Dynamic Research, vol. 33(5-6), pp. 453-476, (2003)
• Oberlack M.: Lie-Bäcklund Symmetries of the G-equation without Advection, Journal of the Calcutta Mathematical Society, vol. 1, pp. 41-52, (2004)
• Kraft S., Wendling I., Oberlack M., Carati D.: Analysis of the applicability of dynamic subgrid scale models in complex geometries, Proc. Appl. Math. Mech. (PAMM), vol. 4, pp. 462-463, (2004)
• Khujadze G., Oberlack M.: DNS and Scaling Laws from New Symmetries of ZPG Turbulent Boundary Layer Flow, Theoret. Comput. Fluid Dynamics, vol. 18(5), pp. 391-411, (2004)
• Guenther, S., Oberlack, M., Brethouver, G., Johansson, A.V.: Investigations of Shear Free Turbulent Diffusion in a Rotating Frame, Proc. Appl. Math. Mech. (PAMM), vol. 4, pp. 458-459, (2004)
• Grebenev V., Oberlack M.: A Chorin-Type Formula for Solutions to a Closure Model for the von Kármán-Howarth Equation, J. Nonlinear Math. Phys., vol. 12(1), pp. 1-9, (2005)
• Guenther S., Oberlack M.: On the Incompatibility of the Exponential Scaling Law for a ZPG Boundary Layer Flow with Reynolds Averaged Turbulence Models, Phys. Fluids, vol. 17, 048105, (2005)
• Kurenkov A., Oberlack M.: Modeling Turbulent Premixed Combustion Using the Level Set Approach for Reynolds Averaged Models, Flow, Turbulence and Combustion, vol. 74, pp. 387-407, (2005)
• Breuer St., Oberlack M., Peters N.: Non-Isotropic Length Scales During the Compression Stroke of a Motored Piston Engine, Flow, Turbulence and Combustion, vol. 74, pp. 145-167, (2005)
• Kurenkov A., Oberlack M.: RANS-simulation of premixed turbulent combustion using the level set approach, Proc. Appl. Math. Mech. (PAMM), vol. 5, pp. 469-470, (2005)
• Guenther S., Oberlack M.: Implication for Lie group symmetries for RANS modeling, Proc. Appl. Math. Mech. (PAMM), vol. 5, pp. 563-564, (2005)
• Khujadze G.., Oberlack M.: DNS and Lie group analysis of turbulent boundarly layer flow, Proc. Appl. Math. Mech. (PAMM), vol. 5, pp. 565-566, (2005)
• Weller T., Oberlack M., Recktenwald I., Schröder W.: DNS and Experiment of a Turbulent Channel Flow with Streamwise Rotation – Study of the Cross Flow Phenomena, Proc. Appl. Math. Mech. (PAMM), vol. 5, pp. 569-570, (2005)
• Oberlack M., Cabot W., Pettersson Reif B. A., Weller T.: Group analysis, DNS and Modeling of a Turbulent Channel Flow with Streamwise Rotation, J. Fluid Mech., vol. 562, pp. 383-403, (2006)
• Khujadze G., Oberlack M., Chagelishvili G.: Direct Numerical Simulation of Stochastically Forced Laminar Plane Peculiarities of Hydrodynamic Fluctuations, Phys. Rev. Letters, vol. 97, 034501, (2006)
• Grebenev V.N., Oberlack M.: Hidden Symmetries to a Hanjalic-Launder semiempirical Model of Turbulence, Reg. and Chaotic Dynamics, vol. 11(3), pp. 371-381, (2006)
• Oberlack M, Wackawczyk M.: On the Extension of Lie Group Analysis to Functional Differential Equations, Arch. of Mech., vol. 58(6), pp. 597-618, (2006)
• Grebenev V.N., Oberlack M.: Approximate Lie symmetries of the Navier-Stokes equations, J. Nonlinear Math. Phys., vol. 14(2), pp. 157-163, (2007)
• Razafindralandy D., Hamdouni A., Oberlack M.: Analysis and Development of Sub-grid Turbulence Models Preserving the Symmetry Properties of the Navier-Stokes equations, Europ. J. Mech. B/Fluids, vol. 26(4), pp. 531-550, (2007)
• Grebenev V.N., Oberlack M.: Compatible Differential Constraints to an Infinite Chain of Transport Equations for Cumulants, Comm. in Nonlinear Sci. and Numerical Simulation, vol. 12(3), pp. 336-349, (2007)
• Frewer M., Oberlack M., Guenther S.: Symmetry investigations on the incompressible stationary axisymmetric Euler equations with swirl, Fluid Dynamic Research, vol. 39(8), pp. 647-664, (2007)
• Recktenwald I., Weller T., Schröder W., Oberlack M.: Comparison of DNS and PIV data of turbulent channel flow rotating about the streamwise axis, Phys. Fluids, vol. 19, 085114, (2007)
• Wang Y., Hayat T., Ali N., Oberlack M., Magnetohydrodynamic peristaltic motion of a Sisko fluid in a symmetric or asymmetric channel, Physica A, vol. 387, pp. 347-362, (2008)
• Vigdorovich I., Oberlack M.: Analytical study of turbulent Poiseuille flow with wall transpiration, Phys. Fluids, vol. 20, 055102, (2008)
• Grebenev V.N., Grishkov A. N., Oberlack M.: Lie algebra methods in Statistical Theory of Turbulence, J. Nonlinear Math. Phys., vol. 15(2), pp. 1-25, (2008)
• Ali N., Wang Y., Hayat T., Oberlack M.: Long wavelength approximation to peristaltic motion of an Oldroyd 4-constant fluid in a planar channel, Biorheology, vol. 45(5), pp. 611-628, (2008)
• Abbas Z., Wang Y., Hayat T., Oberlack M.: Hydromagnetic flow in a viscoelastic fluid due to the oscillatory stretching surface, Int. J. Non-Linear Mech., vol. 43(8), pp. 783-793, (2008)
• Kinzel, M., Holzner, M., Lüthi, B., Tropea, C., Kinzelbach, W. and Oberlack, M.: Experiments on the spreading of shear-free turbulence under the in?uence of con?nement and rotation. Exp. Fluids, 47(4-5), 801-809 (2009)
• Abbas Z., Wang Y., Hayat T., Oberlack M.: Slip effects and heat transfer analysis in a viscous fluid over an oscillatory stretching surface, Int. J. Numer. Meth. Fluids., vol. 59(4), pp. 443-458, (2009)
• Ali N., Wang Y., Hayat T., Oberlack M.: Slip Effects on the Peristaltic Flow of a Third Grade Fluid in a Circular Cylindrical Tube, ASME J. Appl. Mech., vol. 76, pp. 011006-1–10, (2009)
• Grebenev V.N., Oberlack M.: A Geometric Interpretation of the Second-Order Structure Function Arising in Turbulence, Math. Phys. Anal. Geom., vol. 12, pp. 1-18, (2009)
• Ali, N., Wang, Y., Hayat, T. and Oberlack, M.: Numerical solution of peristaltic transport of an Oldroyd 8-constant fluid in a circular cylindrical tube. Canadian Journal of Physics, 87(9), 1047-1058 (2009)
• Oberlack M., Cheviakov A. F.: Higher-order symmetries and conservation laws of the G-equation for premixed combustion and resulting numerical schemes. J. of Eng. Math. vol. 66, pp. 121-140, (2010)
• Abbas, Z., Wang, Y., Hayat, T. and Oberlack, M.: Mixed convection in the stagnation-point flow of an upper-convected Maxwell fluid towards a vertical stretching surface. Nonlinear Analysis: Real World Applications, 11, 3218-3228 (2010).
• Mehdizadeh, A. and M. Oberlack, M.: Analytical and numerical investigations of laminar and turbulentPoiseuille–Ekman flow at different rotation rates. Physics of Fluids, 22, 105104 (2010)
• Oberlack, M. and Rosteck, A.: New statistical symmetries of the multi-point equations and its importance for turbulent scaling laws. Discrete and Continuous Dynamical Systems Series S, 3(3), 451-471 (2010).
• Rosteck, A. and Oberlack, M.: Lie algebra of the symmetries of the multi-point equations in statistical turbulence theory. J. Nonlinear Mathematical Physics, 18, Suppl. 1 251–264 (2011)
• Grebenev, V.N. and Oberlack, M.: Geometric realization of the two-point velocity correlation tensor for isotropic turbulence. Journal of Nonlinear Methematical Physics, 18(1), 109-120 (2011)
• Oberlack, M.: On a class of SGS filters for LES with shapepreserving concatenation properties. Communications in Nonlinear Science and Numerical Simulations, 16, 4403-4407 (2011)
• Wang, Y., Ali, N., Hayat, T. and Oberlack, M.: Peristaltic motion of a magnetohydrodynamic micropolar fluid in a tube. Applied Mathematical Modelling, 35, 3737-3750 (2011)
• Gampert, M., Goebbert, J.H., Schaefer, P.,Gauding, M., Peters, N., Aldudak, F.and Oberlack, M.: Extensive strain along gradient trajectories in theturbulent kinetic energy field. New Journal of Physics, 13, 043012 (2011)
• Kraft, S., Wang, Y. and Oberlack, M.: Large eddy simulation of sediment deformation in a turbulent flow by means of level-set method. Journal of Hydraulic Engineering. in press (2011)
• Wang, Y. and Oberlack, M.: A thermodynamic model of multiphase flows withmoving interfaces and contact line. Continuum Mechanics and Thermodynamics. 23, 409-433 (2011)
• Liu, Z., Oberlack, M., Grebenev, V.N. and Liao, S.-J.: Explicit series solution of a closure model for thevon K´arm´an-Howarth equation. ANZIAM Journal, in press (2011)
• Waclawczyk, M. and Oberlack, M.: Closure proposals for the tracking of turbulence-agitated gas-liquid interface in stratified flows. International Journal of Multiphase Flow, 52, 179-202 (2011)
• Aldudak, F. and Oberlack, M.: Dissipation element analysis in turbulent channel flow. Journal of Fluid Mechanics, in press (2011)

Refereed Symposia and Conference Contributions

• Oberlack M., Peters N., Kivotides D.: Solutions of the von Kármán-Howarth Equation by Gradient Flux Approximations, Proc. of the Eighth Symposium on Turbulent Shear Flows, München, (1991)
• Oberlack M., Peters N.: Closure of the Dissipation Tensor and the Pressure-Strain Tensor Based on the Two-Point Correlation Equation, Proc. of the Ninth Symposium on Turbulent Shear Flows, Kyoto/Japan, (1993)
• Oberlack M.: Self-Similar Mean Velocity Profiles in Plane Parallel Turbulent Shear Flows, Turbulence, Heat and Mass Transfer 2, eds. K. Hanjalic and T.W.J. Peeters, Delft University Press, (1997)
• Oberlack M.: Generalized Theory for Symmetries in Inhomogeneous Turbulent Shear Flows, Proc. of the 11th International Conference on Turbulent Shear Flows, Grenoble/France, (1997)
• Oberlack M., Cabot W. H., Rogers M. M.: Turbulent Channel Flow with Streamwise Rotation: Lie Group Analysis, DNS and Modeling, Proc. of the 1st International Conference on Turbulence and Shear Flow Phenomena, Santa Barbara/USA, (1999)
• Arlitt R. G. H., Oberlack M., Peters N.: Compressible Turbulent Flow: Symmetries and Scaling laws, Proc. of the 1st International Conference on Turbulence and Shear Flow Phenomena, Santa Barbara/USA, (1999)
• Oberlack M., Barakat M.: Reduction and Long Time Behaviour of Homogeneous Turbulence under Spatially Constant Mean-Velocity Gradient, Proc. of the Eights European Turbulence Conference, Barcelona/Spanien, (2000)
• Oberlack M., Wenzel H., Peters N.: Symmetries and Averaging of the G-Equation for Premixed Combustion, Proc. of the 2nd International Conference on Turbulence and Shear Flow Phenomena, Stockholm/Schweden, (2001)
• Khujadze G., Oberlack M.: DNS and Scaling Laws from New Symmetry Groups of Turbulent Boundary Layer with Zero Pressure Gradient, Proc. of the Ninth European Turbulence Conference, Southampton/UK, (2002)
• Oberlack M., Guenther S.: New Scaling Laws of Shear-Free Turbulent Diffusion and Diffusion-Waves, IUTAM Symposium on Reynolds Number Scaling in Turbulent Flow, Princeton/USA, (2002)
• Oberlack, M., Guenther, S.: Vibrating Grid Turbulence Scaling Laws in Inertial and Rotating Systems, Proc. of the 5th EUROMECH Fluid Mechanics Conference, Toulouse/Frankreich, (2003) (Best Poster Award)
• Khujadze, G., Oberlack, M.: Symmetries, Scaling Laws and DNS of Turbulent Boundary Layer Flow, Proc. of the Int. Symposium on Turbulence, Heat and Mass Transfer 4, Antalya/Türkei, (2003)
• Oberlack M., Guenther S.: Two-Point Similarity Solutions of Shear-Free Turbulent Diffusion, Diffusion-Waves and its Implications for RANS Models, Proc. of the 3nd International Conference on Turbulence and Shear Flow Phenomena, Sendai/Japan, (2003)
• Guenther, S., Oberlack, M., Brethouwer, G., Johansson, A.V.: Lie Group Analysis, LES and Modeling of Shear-Free Turbulent Diffusion in a Rotating Frame, Advances in Turbulence X, Proc. of the 10th European Turbulence Conference, Trondheim/Norwegen, (2004)
• Schneider, E., Sadiki, A., Kurenkov, A., Janicka, J., Oberlack M.: Modelling of Premixed Combustion Using G-Equation in RANS Context, Advances in Turbulence X, Proc. of the 10th European Turbulence Conference, Trondheim/Norwegen, (2004)
• Khujadze, G., Oberlack, M.: Similarity of Two-Point Correlations in Turbulent Boundary Layer Flow, Advances in Turbulence X, Proc. of the 10th European Turbulence Conference, Trondheim/Norwegen, (2004)
• Schaffner, J., Oberlack, M., Kirchheim, N.: The Application of Numerical Modeling (3-D) for the Calculation of Flush Waves in Sewer Channels, Proc. of the 6th International Conference on Urban Drainage Model ling – UDM’04, Dresden, (2004)
• Kirchheim, N., Oberlack, M.: 3D Modelling of a Converge Side Weir to Describe the Discharge of a Combined Sewer Overflow, Proc. of the Workshop on Integrated Water Research and Water Management, Kloster Haydau, Kassel, (2004)
• Schaffner, J., Oberlack, M.: Numerical Calculation of Shear Stress Created by Flushwaves in Sewers: Presentation of Testsides in Offenbach/Germany and Lyon/France, Proc. of the Workshop on Integrated Water Research and Water Management, Kloster Haydau, Kassel, (2004)
• Wendling, I., Oberlack, M.: On the Investigation of a Strain and Rotation Dependent Subgrid-Scale Model Using the Dynamic Procedure, Proc. 4th International Conference on Turbulence and Shear Flow Phenomena, (2005)
• Weller T., Schneider K., Oberlack M., Farge M.: DNS and Wavelet Analysis of a Turbulent Channel Flow Rotating about the Streamwise Direction, Proc. 5th International Symposium on Turbulence, Heat and Mass Transfer, (2006)
• Razafindralandy D., Oberlack M.: A new class of symmetry preserving and thermodyamically consistent SGS models, Proc. 11th European Turbulence Conference, (2007)
• Razafindralandy D., Oberlack M.: New turbulence models preserving symmetries, Proc. 5th International Symposium on Turbulence and Shear Flow Phenomena, (2007)
• Khujadze G., Oberlack M.: New Scaling Laws in ZPG Turbulent Boundary Layer Flow Proc. 5th International Symposium on Turbulence and Shear Flow Phenomena, (2007)
• Weller T., Schneider K., Oberlack M., Farge M.: Studying Streamwise Rotation Variations of a Turbulent Channel Flow using DNS and CVE, Proc. 5th International Symposium on Turbulence and Shear Flow Phenomena, (2007)
• Kinzel M., Holzner M., Lüthi B., Tropea C., Kinzelbach W., Oberlack M.: Scaling Laws of Turbulent Diffusion Ð An Experimental Validation, Proc. 14th International Symposium on Applications of Laser Techniques to Fluid Mechanics, (2008)
• Mehdizadeh, A., Oberlack, M, Hosseinzadeh, A.: DNS and Modeling of aTurbulent Channel Flow with Wall-Normal Rotation. Proc. SixthInternational Sympsium on Turbulence Shear Phenomena, Seoul, Korea pp. 557-562 (2009)
• Mehdizadeh, A., Oberlack, M.: A study of turbulent Poiseuille-Ekman flow atdifferent rotation rates using DNS. Proc. 12th EUROMECH, EuropeanTurbulence Conference, Marburg, Germany, pp. 393-396 (2009)
• Khujadze, G., Nguyen van yen, R., Schneider, K., Oberlack, M, Farge, M.: Coherent vorticity extraction in turbulent boundary layers using orthogonal wavelets. Center for Turbulence Research, Proceedings of the Summer Program 2010 (27.6.-23.7.2010)
• Rosteck, A., Oberlack, M., Khujadze, G.: New Turbulent scaling laws arising from new statistical symmetries of the multi-point equations. Proceedings of the 16th US National Congress of Theoretical and Applied Mechanics, USNCTAM2010, June 27-July 2, 2010, State College, PA, USA.

Book Chapters

• Oberlack M., Peters N.: Closure of the Two-Point Correlation Equation in Physical Space as a Basis for Reynolds-Stress Models, in: Near-Wal l Turbulent Flows, eds. R.M.C. So, C.G. Speziale, B.E. Launder, Elsevier Verlag, (1993)
• Oberlack M.: Closure of the Dissipation Tensor and the Pressure-Strain Tensor Based on the Two-Point Correlation Equation, in: Turbulent Shear Flows 9, eds. F. Durst, N. Kasagi, B.E. Launder, F.W. Schmidt, J.H. Whitelaw, Springer Verlag, (1994)
• Oberlack M.: Symmetries in Turbulent Flows, in: Modern Group Analysis VII, eds. N. N. Ibragimov, K. R. Naqvi, E. Straume, Norwegian University of Science and Technology (NTNU) Trondheim, (1998)
• Oberlack M.: Symmetries of the Navier-Stokes Equations and their Implications for Subgrid-Models in Large-Eddy Simulation of Turbulence, in: Fundamental Problematic Issues in Turbulence, eds. A. Gyr, W. Kinzelbach, A. Tsinober, Trends in Mathematics, Birkhäuser Verlag, (1999)
• Oberlack M., Guenther S.: New Scaling Laws of Shear-Free Turbulent Diffusion and Diffusion-Waves, in: Reynolds Number Scaling in Turbulent Flow, ed. A. J. Smits, Kluwer Academic Publishers (2003)
• Khujadze G., Oberlack M.: DNS and Scaling Laws from the New Symmetry Groups of ZPG Turbulent Boundary Layer, in: New Results in Numerical and Experimental Fluid Mechanics IV, Notes on Numerical Fluid Mechanics and Multidisciplinary Design, Vol. 87, eds. Chr. Breitsamter, B. Laschka, H.-J. Heinemann, R. Hilbig, Springer-Verlag (2004)
• Oberlack M., Khujadze G.: Symmetry Methods in Turbulent Boundary Layer Theory (New Wake Region Scaling Laws and Boundary Layer Growth), in: Proc. of the IUTAM-Symposium ’One Hundred Years of Boundary layer Research’, ed. H.-J. Heinemann, Springer-Verlag (2005)
• Guenther, S., Oberlack, M.: Modeling of the Pressure-Strain and Diffusion-Term in Rotating Flows, in: Progress in Turbulence, eds. J. Peinke, A. Kittel, S. Barth, M. Oberlack, Springer-Verlag (2005)
• Khujadze G., Oberlack M.: DNS and New Scaling Laws of ZPG Turbulent Boundary Layer Flow, in: Progress in Turbulence, eds. J. Peinke, A. Kittel, S. Barth, M. Oberlack, Springer-Verlag (2005)
• Weller T., Oberlack M.: DNS and Scaling Laws of a Turbulent Channel Flow with Streamwise Rotation, in: Progress in Turbulence, eds. M. Oberlack et al., Springer-Verlag (2007)
• Guenther S., Oberlack, M.: Consistent invariant modelling of axially rotating pipe flow, in: Progress in Turbulence, eds. M. Oberlack et al., Springer-Verlag (2007)
• Nold A., Oberlack, M.: Applications of Symmetry Analysis in Stability Theory, in: New Results in Numerical and Experimental Fluid Mechanics VII, Reihe: Notes on Numerical Fluid Mechanics and Multidisciplinary Design, eds. A. Dillmann et al., Springer-Verlag (2009)
• Moradi, S., Wang, Y. and Oberlack, M.: Modeling of channel flows with transitioninterface separating free surface and pressurizedchannel flows. Chapter 6 in: Mathematical Optimization of Water Networks. Birkhäuser Verlag (2011)
• Kelbin, O., Cheviakov, A.F., Oberlack, M.: Conservation laws of helically symmetric flowsand their importance for turbulence theory. Progress in Turbulence, Springer-Verlag (2011)
• Khujadze, G., Chagelishvili, G., Oberlack, M., Tevzadze, A., Bodo, G.: Aerodynamic sound generation by turbulence inshear flows. Progress in Turbulence, Springer-Verlag (2011)
• Rosteck, A., Oberlack, M.: New statistical symmetries of the two-pointcorrelation equations for turbulent flows. Progress in Turbulence, Springer-Verlag (2011)

Reports and Miscellaneous

• Oberlack M., Rogers M. M., Reynolds W. C.: Modeling the Two-Point Correlation of the Vector Stream Function, Studying Turbulence Using Numerical Databases – V, Center for Turbulence Research, Stanford University/NASA Ames, (1994)
• Oberlack M.: Analysis of the Two-Point Velocity Correlations in Turbulent Boundary Layer Flows, Center for Turbulence Research, Stanford University/NASA Ames, Annual research briefs, (1995)
• Oberlack M.: Symmetries in Turbulent Boundary Layer Flows, Center for Turbulence Research, Stanford University/NASA Ames, Annual research briefs, (1996)
• Oberlack M.: Invariant Modelling in Large-Eddy Simulation of Turbulence, Center for Turbulence Research, Stanford University/NASA Ames, Annual research briefs, (1997)
• Oberlack M., Cabot W. H., Rogers M. M.: Group Analysis, DNS and Modeling of a Turbulent Channel Flow with Streamwise Rotation, Studying Turbulence Using Numerical Databases – VII, Center for Turbulence Research, Stanford University/NASA Ames, pp. 221-242 (1998)
• Oberlack M.: Generalized Symmetries of the G-Equation without Underlying Flow Field, Center for Turbulence Research, Stanford University/NASA Ames, Annual research briefs, (2001)
• Oberlack M., Khujadze G.: Skalengesetze zur Beschreibung turbulenter wandnaher Strömungen, in: thema FORSCHUNG, Panta rhei – al les fließt, vol. 2, pp. 64-71, (2003)
• Schaffner J., Oberlack M.: Hydromechanische Modellierung einer Spülwelle in einem Stauraumkanal, in: thema FORSCHUNG, Panta rhei – al les fließt, vol. 2, pp. 72-77, (2003)
• Guenther S., Oberlack M.: Vibrating Grid Turbulence Scaling Laws in Inertial and Rotating Systems, EUROMECH newsletter, vol. 27, (2004)
• Knudsen E., Kurenkov O., Kim S., Oberlack M., Pitsch H.: Modeling Flame Brush Thickness in Premixed Turbulent Combustion, in: Studying Turbulence Using Numerical Databases – IX, Center for Turbulence Research, Stanford University/NASA Ames, (2006)
• Oberlack, M, Khujadze, G., Avsarkisov, V. and Wang, Y. Direkte numerische Simulation der Turbulenz. Foschen, Nr. 2, 32-35 (2011)

Books

• Oberlack M., Busse F.-H.: Theories of Turbulence, Springer Wien New York, (2002)
• Peinke J., Kittel A., Barth St., Oberlack M.: Progress in Turbulence, Springer Berlin Heidelberg New York, (2005)
• Oberlack, M., Khujadze, G., Guenther, S., Osman, A., Weller, T., Frewer, M., Barth, S., Peinke, J.: Progress in Turbulence II, Springer Berlin Heidelberg New York, (2007)
• Peinke, J., Oberlack, M., Khujadze, G.: Progress in Turbulence III, Springer Berlin Heidelberg New York, to appear in (2009)