Peer-Reviewed Conference Proceedings
- Papavassiliou, D.V., and C. Srinivasan, “Heat Transfer in Turbulent Flow with Lagrangian Methods: Scales of Turbulent Transport in Wall Turbulence’,” 9th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics, HEFAT2012, Malta, 16-18 July, 2012
- Sanchez, M., Henderson, A.W., Papavassiliou, D.V., and E.C. Lemley, “Entropy generation in laminar flow junctions,” Proceedings of FEDSM2012, paper FEDSM2012-72334, ASME Fluids Engineering Division Summer Conference, Puerto Rico, July 8-12, 2012
- Karna, A.K., and D.V. Papavassiliou, D.V., “Direct simulations of line source dispersion in a turbulent channel flow,” Proceedings, 2nd NAUN Fluid Mechanics and Heat and Mass Transfer 2011, Corfu, Greece, July 14-16, 2011
- Papavassiliou, D.V., and C. Srinivasan, “Turbulent heat and mass transfer simulations using Lagrangian methods and direct numerical simulations,” Proceedings, 7th GRACM Congress on Computational Mechanics, Athens, Greece, June 30-July 2, 2011
- Bui, K., and D.V. Papavassiliou, “Heat transfer in nanocomposites with Monte-Carlo simulations,” Defect and Diffusion Forum, Vols 312-315, 177-182, 2011; doi: 10.4028/www.scientific.net/DDF.312-315.177
- Argyris, D., Ho, T.A., Papavassiliou D.V., and A. Striolo, “Equilibrium and Transport Properties of Aqueous Electrolytes within Narrow Slit-Shaped Pores: from Molecular Dynamics Results to Nanofluidics Devices,” Chem. Eng. Transactions 24, 1363-1368, 2011; DOI: 10.3303/CET1124228 , from the 10th International Conference on Chemical and Process Engineering, Florence, 8-11 May 2011-
7. Kiser, C.C., Handy, T.A., Lemley, E.C., Papavassiliou, D.V., and H.J. Neeman, “Reynolds number dependence for laminar loss coefficients in tee and wye junctions,” Proceedings of FEDSM2010-ICMM2010, paper FEDSM2010-ICMM2010-31026, ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting and 8th International Conference on Nanochannels, Microchannels and Minichannels, Montreal CA, Aug. 1-5, 2010.
8. Shambaugh, B.R., Marla,V.T., Papavassiliou, D.V., and Shambaugh, R.L., “On line measurement of fiber diameter and temperature in the melt spinning and melt blowing processes”, CD-ROM Proceedings, International Nonwovens Technical Conference 2009, Denver, CO, September, 2009.
9. Handy, T., Lemley, E.C., Papavassiliou, D.V., and H.J. Neeman, “Laminar Entrance Length in Microtubes,” Proceedings of FEDSM2009, paper FEDSM2009-78532, ASME Fluids Engineering Division Summer Conference, Vail, CO, Aug. 2-6, 2009.
10. Handy, T., Lemley, E.C., Papavassiliou, D.V., and H.J. Neeman, “Loss Coefficients in Microelbows,” Proceedings of FEDSM2009, paper FEDSM2009-78517, ASME Fluids Engineering Division Summer Conference, Vail, CO, Aug. 2-6, 2009.
11. Yamamoto, N., Duong, H.M., Schmidt, A.J., Wardle, B.L., Papavassiliou, D.V., and S. Maruyama, “Simulation and Experimental Correlation of Thermal Conductivity in Variable Volume Fraction Aligned Carbon Nanotube Composites,” proceedings of IMECE2008, paper IMECE2008-66557, ASME International Mechanical Engineering Congress and Exposition, Oct 31-Nov 6, Boston, 2008.
12. Duong, H.M., Papavassiliou, D.V., Yamamoto, N., and B.L. Wardle, B.L., “Off-Lattice Monte Carlo Simulation of the thermal conductivity of Single-walled carbon nanotube–polymer composites with carbon nanotube touching effect,” proceedings of IMECE2008, paper IMECE2008-66336, ASME International Mechanical Engineering Congress and Exposition, Oct 31-Nov 6, Boston, 2008.
13. Beard, J., Shambaugh, R.L., Papavassiliou, D.V., and B.R. Shambaugh, “On line measurement of fiber motion during Melt Blowing”, CD-ROM Proceedings, International Nonwovens Technical Conference 2008, Houston, September, 2008.
14. Lemley, E.C., Handy, T., Papavassiliou, D.V., and H.J. Neeman, “Simulations to Determine Laminar Loss Coefficients for Flow in Circular Ducts with Arbitrary Planar Bifurcation Geometries,” Proceedings of FEDSM2008, paper FEDSM2008-55181, ASME Fluids Engineering Division Summer Conference, Jacksonville FL, Aug. 10-14, 2008.
15. Lemley, E.C., Papavassiliou, D.V., and H.J. Neeman, “Simulations to Determine Laminar Loss Coefficients in Planar Dividing Flow of Arbitrary Geometry,” Proceedings of FEDSM2007, paper FEDSM2007-37268, 5th Joint ASME/JSME Fluids Engineering Conference, July 30-August 2, San Diego, 2007.
16. Lemley, E.C, Papavassiliou, D.V., and H.J. Neeman, “Non-Darcy flow pore network simulation: Development and validation of a 3D model,” Proceedings of FEDSM2007, paper FEDSM2007-37278, 5th Joint ASME/JSME Fluids Engineering Conference, July 30-August 2, San Diego, 2007.
17. Krutka, H.M., Shambaugh, R.L., and D.V. Papavassiliou, “Velocity and temperature fields from multiple row melt blowing dies,” CD-ROM Proceedings, International Nonwovens Technical Conference 2006, Houston, September, 2006.
18. Krutka, H.M., Shambaugh, R.L., and D.V. Papavassiliou, “Analysis of Multiple Jets in the Schwarz Melt Blowing Die Using Computational Fluid Dynamics,” CD-ROM Proceedings, International Nonwovens Technical Conference 2005, St. Louis, September, 2005.
19. Thummala, N., and D.V. Papavassiliou, “Simulation of heat transfer with LBM and Lagrangian methods for microfluidic applications,” paper HT2005-72313, Proceedings 2005 ASME Summer Heat Transfer Conference, San Francisco, CA, July 17-22, 2005.
20. Thummala, N., and D.V. Papavassiliou, “Heat transfer in microscopic scales,” (in Greek), Proceedings, 5th Panhellenic Chemical Engineering Science Conference, Thessaloniki, Greece, May 26-28, 2005.
21. Le, P.M., and D.V. Papavassiliou, “Heat transfer in turbulent Couette flow,” (in Greek), Proceedings, 5th Panhellenic Chemical Engineering Science Conference, Thessaloniki, Greece, May 26-28, 2005.
22. Marla, V.T., Krutka, H.M., Moore, E.M., Shambaugh, R.L., and D.V. Papavassiliou, “Varieties of melt-blowing dies,” CD-ROM Proceedings, International Nonwovens Technical Conference 2004, Toronto, September, 2004, (Best paper award for Meltblown/Spunbond area).
23. Le, P.M., and D.V. Papavassiliou, “Turbulent Heat Transfer in Plane Channel and Plane Couette Flow,” paper HT-FED2004-56130, CD ROM Proceedings, 2004 ASME Heat Transfer/Fluids Engineering Summer Conference, Charlotte, NC, July 11-15, 2004
24. Papavassiliou, D.V., Krutka, H.M., and R.L. Shambaugh, “Use of a Commercial CFD Package to Improve Melt Blowing Dies – Part I,” paper HT-FED2004-56130, CD-ROM Proceedings, International Nonwovens Technical Conference 2003, Baltimore, September, 2003.
25. Shambaugh, R.L., Krutka, H.M., and, D.V. Papavassiliou, “Use of a Commercial CFD Package to Improve Melt Blowing Dies – Part II,” CD-ROM Proceedings, International Nonwovens Technical Conference 2003, Baltimore, September, 2003.
26. Krutka, H., Shambaugh, R.L., and D.V. Papavassiliou, “Use of CFD to design a melt blowing die,” Computational Technologies for Fluid/Thermal/Structural/Chemical Systems with Industrial Applications, PVP-Vol 448-2, pp. 237-242, ASME Conference, Vancouver, August, 2002.
27. Neeman, H.J., Lao, H-W., Simpson, D., and D.V. Papavassiliou, ” Multiscale characterization of porous media properties for hydrocarbon reservoir simulation,” in Commercial Applications for High Performance Computing, Howard Jay Siegel, editor, Proceedings of SPIE Vol. 4528, 87-97, 2001. Commercial Applications for High-Performance Computing (IT401), SPIE International Symposium on The Convergence of Information Technologies and Communications (ITCOM), Denver, CO, 20-24 August, 2001.
28. Lao, H-W., Neeman, H.J. and D.V. Papavassiliou, “Stochastic prediction of pore media properties,” Computational Technologies for Fluid/Thermal/Chemical Systems with Industrial Applications, PVP-Vol. 424-2, pp. 185-195, ASME Conference, Atlanta, July, 2001.
29. Papavassiliou, D.V., “Line source scalar dispersion from the wall of a turbulent channel for high Prandtl numbers,” CD-ROM Proceedings, Turbulent Heat Transfer III, A United Engineering Foundation Conference, Alyeska, Alaska, March 2001.
30. Papavassiliou, D.V., S.L. Lyons, and M.E. Henderson, “Simulation of non-Darcy flow through porous media “, Computational Technologies for Fluid/Thermal/Chemical Systems with Industrial Applications, PVP-Vol. 397-1, pp. 149-156, ASME Conference, Boston, August, 1999.
31. Na, Y., Papavassiliou, D.V., and T.J. Hanratty, “The effect of Prandtl number on turbulent temperature fields”, Proceedings, Turbulent Heat Transfer II, An International Engineering Foundation Conference, Manchester, UK, June, 1998.
32. Papavassiliou, D.V., and S.L. Lyons, “Non-Darcy flow through porous media. Numerical and physical issues”, Proceedings, 1st IMuST Annual Meeting, Santa Barbara, February 1998.
33. Hanratty, T.J. and D.V. Papavassiliou, “Reynolds number effects on the scaling of wall turbulence”, Proceedings, Eleventh Symposium on Turbulent Shear Flows, paper 11-8, Toulouse, France, September 1997.
34. Papavassiliou, D.V., and T.J. Hanratty, “Secondary flow and residual turbulence in plane Couette flow’, Proceedings, Turbulent Heat Transfer I, An International Engineering Foundation Conference, San Diego, March, 1996.
35. Papavassiliou, D.V., and T.J. Hanratty, “The use of Lagrangian methods to describe the influence of Prandtl number on turbulent heat transfer from a wall”, Proceedings, Turbulent Heat Transfer I, An International Engineering Foundation Conference, San Diego, March, 1996.
36. Papavassiliou, D.V., and T.J. Hanratty, “Synthesis of temperature fields in terms of the behavior of instantaneous wall sources”, Proceedings, Tenth Symposium on Turbulent Shear Flows, paper 31-4, Penn State, 1995.
37. Hanratty, T.J., Brooke, J.B., Papavassiliou, D.V., Liu, Z.C., Adrian, R.J., and J.B McLaughlin, “Recent results on the structure of wall turbulence”, Proceedings, Ninth Symposium on Turbulent Shear Flows, paper 11-3, Kyoto, 1993
DVP’s Peer-Reviewed Technical Reports
1. Lao, H-W., Neeman, H.J. and D.V. Papavassiliou, “Development of a random pore network simulation for the estimation of reservoir rock properties. Part 1: The two-dimensional case,” Rock Mechanics Institute Research Memorandum, IAP/III-01-01, June, 2001.
2. Lyons, S.L., Papavassiliou, D.V., Parashkevov, R., Qin, G., Garanzha, V.A., Kaporin, I.E., Konshin, V.N.,and A.Y. Yeremin, “New approximation schemes for Darcy and Forchheimer flow through porous media. Part 2: Numerical experiments,” SRC Memorandum No. 32, Mobil Technology Company, 1999.
3. Lyons, S.L., Papavassiliou, D.V., Parashkevov, R., Qin, G., Garanzha, V.A., Kaporin, I.E., Konshin, V.N., and A.Y. Yeremin, “New approximation schemes for Darcy and Forchheimer flow through porous media. Part 1: Formulation and discretization” SRCM990913-1, Mobil Technology Company, 1999.
4. Lyons, S.L., Papavassiliou, D.V., Qin, G., Ewing, R., Lazarov, R., and J. Pasciak, “Numerical well model for non-Darcy flow through isotropic porous media”, SRCM980804-1, Mobil Technology Company, or ISC-98-11-Math, Texas A&M University, 1998.
5. Ewing, R.E., Lazarov, R., Lyons, S.L., Papavassiliou, D.V., Pasciak , J., and G. Qin, “Numerical well model for non-Darcy flow”, ISC-98-05-Math, Texas A&M University, 1998.
6. Papavassiliou, D.V., and S.L. Lyons, “High velocity flow through porous media. A literature review”, SRCM980409-1, Mobil Technology Company, 1998.
7. Papavassiliou, D.V., and S.L. Lyons, “Well equation and interpretation of well-block pressures in a finite difference simulation of high velocity flow through porous media for fully penetrating vertical wells”, SRCM980115-1, Mobil Technology Company, 1998.

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