Technical Publications using TransAT - ASCOMP GmbH

About Multiphase Flow Physics & Modelling

  1. Lakehal D.: Advances in Computational Heat Transfer & Two-Phase Flow based on Direct Interface Tracking. In Proc. of 5th Int. Conf. Transport Phenomena in Multiphase Systems -HEAT5, Keynote Lecture, June 30 - July 3, 2008, Bialystok, Poland.
  2. Lakehal D., Fulgosi M., Banerjee S., Yadigaroglu G.: Turbulence and heat transfer in condensing vapor-liquid flow, Phys. Fluids, 20, 065101, 2008.
  3. Lakehal D, Fulgosi M., G. Yadigaroglu, DNS of a condensing stratified steam-water flow, ASME J. Heat Transfer, 130, 021501-1, 2008
  4. Lakehal D.: Phenomenology and modelling of turbulence in multiphase flows. Short Courses on Modelling and Computation of Multiphase Flows, G. Yadigaroglu and G. Hetsroni (Eds.), ETH Zurich, 29 pages, 2007.
  5. Lakehal D.: DNS of Turbulent Transport at Deformable sheared Interfaces: Statistics and Modelling Parameterization. VKI Lecture Series 2007-05, CFD of Multi-fluid Flow, J-M. Buchlin (Ed.), Von Karman Institute for Fluid Mechanics, Rhodes-St-Genese, Belgium, 28 pages, 2007.
  6. Lakehal D.: LES of Turbulent Interfacial Flows: Formalism, SGS Modelling and Applications. VKI Lecture Series 2007-05, CFD of Multi-fluid Flow, J-M. Buchlin (Ed.), Von Karman Institute for Fluid Mechanics, Rhodes-St-Genese, Belgium, 26 pages, 2007.

About CMFD: Computational Multifluid Flow Dynamics.

  1. Fulgosi M., G. Yadigaroglu, DNS of a condensing stratified steam-water flow, ASME J. Heat Transfer, 130, 021501-1, 2008.
  2. Liovic P., Lakehal D : A Newton-Krylov solver for Lagrangian mesh generation in remaping based VOF, SIAM J. Sci. Stat. Comput., 31(2), pp. 865-–889, 2008.
  3. Garg R., Narayanan C., Lakehal D., Subramaniam S.: A numerically convergent Lagrangian-Eulerian simulation method for dispersed two-phase flows. I. J. Multiphase Flow, (in review).
  4. Garg R., Narayanan C., Lakehal D., Subramaniam S.: Accurate numerical estimation of interphase momentum transfer in Lagrangian-Eulerian simulations of dispersed two-phase flows, J. Multiphase Flow, 33(12), pp. 1337–1364, 2007.
  5. Liovic P., Lakehal D.: Multi-physics treatment in the vicinity of arbitrarily deformable gas-liquid interfaces, J. Comp. Physics, 222, pp. 504535, 2007.
  6. Liovic P., Rudman M., Liow J.L., Lakehal D., Kothe, D.: A three-dimensional unsplit-advection volume tracking with planarity preserving interface reconstruction, Computers & Fluids, 35(9), pp.1011-1032, 2006.
  7. Lakehal D.: Models and Strategies of Two-Phase Flow. VKI Lecture Series 2005-04, Industrial Two-Phase Flow CFD, J-M. Buchlin (Ed.), Von Karman Institute for Fluid Mechanics, Rhodes-StGenese, Belgium, 18 pages, 2005.
  8. Lakehal D., Meier M., Fulgosi M.: Interface tracking for the prediction of interfacial dynamics and heat/mass transfer in multiphase flows, Int. J. Heat & Fluid Flow, 23, pp. 242-257, 2002.

TransAT for Microfluidics applications.

  1. Nrayanan C., Lakehal D: Computational Microfluidics for Miniaturised Bio-Diagnostics Devices using the code TransAT, Proc. Nanotech 2008, 29 May - 2 June, Boston, Vol. 3, Paper 602.
  2. Icardi M., Caviezel D., Lakehal, D.: The Immersed Surfaces Technology for Reliable and Fast Setup of Microfluidics Simulation Problems, Proc. Nanotech 2008, 29 May - 2 June, Boston, Vol. 3, Paper 631.
  3. D. Caviezel, D. Lakehal and T-N. Dinh: A comprehensive computational and experimental investigation of the micro-hydrodynamics of wall boiling films, Proc. CHT-08: Advances in Comp. Heat Transfer, Marrakech, Morocco, 11-16 May 2008 .
  4. A. Carlson, T-N. Dinh and D. Lakehal: Predicting interfacial two-phase flow in small tubes: a systematic comparison of state-of-the-art CMFD codes, (submitted) EUROTHERM 2008, 18-22 May 2008, Eindhoven, the Netherlands.
  5. Narayanan C., Lakehal D.: Convective heat transfer and two-phase flow in miniature pipes under gravity and microgravity conditions, ASME J. Heat Transfer, 130, 074502-3, 2008.
  6. Caviezel D., Narayanan C., Lakehal D.: Axisymmetric droplet impact on non-wetting surfaces: A new regime map for adherence and bouncing, Microfluidics & Nanofluidics Journal, 5, pp. 469–-478, 2008.
  7. Lakehal D., Larrignon G., Narayanan C.: Computational heat transfer and two-phase flow topology in small pipes, Microfluidics & Nanofluidics Journal, 4, 261-271, 2008. TransAT for Waves & Hydrocarbons Exploration and Transport.
  8. Lakehal D., Narayanan C.: Two-phase convective heat transfer in miniature pipes under gravity and microgravity conditions, ASME J. Heat Transfer, 130, 074502--3, 2008.
  9. G. Larrignon, C. Narayanan and D. Lakehal: Effect of gravity on two-phase flow regime in miniature pipes, 6th International Conference on Multiphase Flow, ICMF 2007, Leipzig, Germany, July 9 13, 2007.
  10. D. Caviezel, C. Narayanan and D. Lakehal: Adherence and bouncing regime map of droplet impact on non-wetting surfaces, 6th International Conference on Multiphase Flow, ICMF 2007, Leipzig, Germany, July 9 13, 2007. Submitted to Microfluidics & Nanofluidics Journal.
  11. . Lakehal, C. Narayanan and L. Tadrist: Heat transfer enhancement in miniature pipe flows, SFT Confrence (French Society of Thermal Science), Les Embiez, France, 29 May - 1st June, 2007.
  12. Lakehal D., Larrignon G., Narayanan C.: Computational heat transfer and two-phase flow topology in small pipes, Microfluidics & Nanofluidics Journal, 4, pp. 261-–271, 2008.,
  13. D. Lakehal and C. Narayanan: Computational Heat Transfer and Two-phase Flow in Miniature Tubes, NSTI Nanotechnology Conference, Nanotech 2006, Symp. Nano & Micro fluidics, Paper 586, Boston, May 8-12, 2006.
  14. C. Narayanan, D. Lakehal: Simulation of filling of microfluidic devices using a coarse-grained continuum contact angle model, NSTI Nanotechnology Conference, Nanotech 2006, Symp. Nano & Micro fluidics, Paper 770, Boston, May 8-12, 2006.

TransAT for Waves & Hydrocarbons Exploration and Transport.

  1. Lakehal D: LARGE-SCALE 3D SIMULATION OF STRATIFIED GAS-LIQUID FLOW TRANSITION AND SLUG FORMATION IN OIL TRANSPORT PIPES, 6th Int. Conf. CFD in Oil & Gas, Metallurgical and Process Industries, SINTEF/NTNU, Trondheim NORWAY, 10-12 June 2008.
  2. Lakehal D., Liovic P.: LES of Steep Water Waves. In ”IUTAM Computational Approaches to Multiphase Flows”, A. Prosperetti and S. Balachandar (Eds.), Springer, Fluid Mechanics and its Applications, 331-340, 2006.
  3.  Holzner R., Eschle P., Dangel S., Narayanan C., Lakehal D.: Hydrocarbon microtremors interpreted as non-linear oscillations driven by oceanic background waves, Comm. Non-linear Science & Numerical Simulation, (in press), 2007.
  4.  Lakehal D.: Computational Transport of Hydrocarbon Fluids. In ”7 Journees Scientifiques et Techniques (JST7) de la SONATRACH”, 28-29 Nov. 2006, Oran, Algeria.

TransAT for Thermal-Hydraulics.

  1. D. Chatzikiriakou, C. Narayanan, D. Lakehal, S.P. Walker, G.F. Hewitt: Modelling droplet hot-wall interactions in the presence of vapour generation using the level-set method, Applied Thermal Engineering, 9 (2009) 1398-1415.
  2. Lakehal D.: LEIS FOR THE PREDICTION OF TURBULENT MULTIFLUID FLOWS WITH AND WITHOUT PHASE CHANGE APPLIED TO THERMAL-HYDRAULICS APPLICATIONS, XCFD4NRS OCDE Conf., Grenoble, Sep. 12-15, 2008.
  3. Tanskanen V., Lakehal D. Puustinen M.: VALIDATION OF DIRECT CONTACT CONDENSATION CFD MODELS AGAINST CONDENSATION POOL EXPERIMENT , XCFD4NRS OCDE Conf., Grenoble, Sep. 12-15, 2008.
  4.  D. Chatzikiriakou, C. Narayanan, D. Lakehal, S.P. Walker, G.F. Hewitt: Modelling droplethot wall interactions in the presence of vapour generation using the level-set method, 10th UK National Heat Transfer Conference Edinburgh, 10-11 Sep. 2007.
  5. Liovic P., Lakehal D.: Interface-turbulence interactions in large-scale bubbling processes, Int. J. Heat & Fluid Flow, 28, pp. 127144, 2007.
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