Malgorzata Peszynska - Publications

Malgorzata Peszynska - Department of Mathematics - Oregon State University - Publications

Links:
Publications
CV
Research
Teaching

Research Links:

Applied Mathematics and Computation Seminar
Numerical Analysis Group at math.oregonstate
Project "Model adaptivity for porous media" supported by the National Science Foundation.
Project "Modeling, analysis and simulation of preferential flow in porous media" supported by Department of Energy, Office of Science.
IJNAM

Below you can find links to the copies of most of my publications, organized chronologically. They can be classified as follows:

Peer-reviewed journal publications: [3, 4, 5, 7, 8, 18, 19, 21, 24, 27, 28, 29, 30, 31, 32, 35, 37]
Peer-reviewed proceedings: [2, 6, 9, 12, 14, 17, 22, 26, 34, 36]
Proceedings: [10, 11, 13, 16, 15, 20, 23, 25, 33]
Thesis: [1]

If a paper you are looking for is not listed below, then it is likely only available in some ancient or incompatible format which I cannot convert to PDF, or it is protected by some strict copyright law. In such a case you can send me email at mpesz at math dot oregonstate dot edu to request a hardcopy.

Additionally, here is a larger list of my publications (PDF) which includes reports and other articles.

Chronological list (peer reviewed journal articles, book chapters, and refereed and non-refereed conference proceedings starting with PhD thesis):

[1] M. Peszynska, Fluid flow through fissured media. Mathematical analysis and numerical approach, Ph.D. Thesis, University of Augsburg, 1992, Augsburg, Germany.

[2] M. Peszynska, Finite element approximation of a model of nonisothermal flow through fissured media, in "Finite Element Methods", M. Krizek, P. Neittaanmaki, R. Stenberg (Eds), Lecture Notes in Pure and Applied Mathematics 164 (1994), pp. 357-366, Marcel Dekker.

[3] M. Peszynska, Analysis of an integrodifferential equation arising from modelling of flows with fading memory through fissured media, J. Partial Diff. Eqs. 8 (1995), pp. 159-173.

[4] M. Peszynska, On a model for nonisothermal flow in fissured media, Differential and Integral Equations 8 (1995), no. 6, pp. 497-516.

[5] M. Peszynska, Finite element approximation of diffusion equations with convolution terms, Math. Comp. 65 (1996), no. 215, pp 1019-1037.

[6] M. Peszynska, Memory effects and microscale, Proceedings of IFIP Conference Modelling and Optimization of Distributed Parameter Systems with Application in Engineering, Warsaw, July 17-21, 1995, K. Malanowski, Z. Nahorski, M. Peszynska (Eds.), Chapman & Hall, 1996.

[7] J. Douglas, Jr., M. Peszynska, R. E. Showalter, Single phase flow in partially fissured media, Transport in Porous Media 28, pp. 285-306, 1997.

[8] M. Peszynska, R. E. Showalter, A Transport Model with Adsorption Hysteresis, Differential and Integral Equations, 11 (1998), no.2, 327-340.

[9] M. Peszynska, A Differential Model of Adsorption Hysteresis with Applications to Chromatography, III Coloquio sobre Ecuaciones Diferenciales Y Aplicaciones, May 1997, Vol. II, Angel Domingo Rueda, Jorge Guinez, eds., 1998 Universidad del Zulia.

[10] M. Wheeler, T. Arbogast, S. Bryant, J. Eaton, Q. Lu, M. Peszynska, I. Yotov, Parallel Multiblock/Multidomain Approach for Reservoir Simulation, SPE 51885, 15th SPE Reservoir Simulation Symposium, Houston, TX, Feb. 14-17, 1999.

[11] S.E. Minkoff, C.M. Stone, J.G. Arguello, S. Bryant, J. Eaton, M. Peszynska, M.F. Wheeler, Staggered in Time Coupling of Reservoir Flow Simulation and Geomechanical Deformation: Step 1 - One-Way Coupling, SPE 51920, 15th SPE Reservoir Simulation Symposium, Houston, TX, Feb. 14-17, 1999.

[12] M. Peszynska, Q. Lu, M. F. Wheeler, Coupling different numerical algorithms for two-phase fluid flow, The Mathematics of Finite Elements and Applications X, MAFELAP X, J.R. Whiteman, Ed., Elsevier, 2000, pp. 205-214, August 1999.

[13] M. Peszynska, Q. Lu, M. F. Wheeler, Multiphysics Coupling of Codes, Computational Methods in Water Resources, L.R. Bentley, J.F. Sykes, C.A. Brebbia, W.G. Gray, and G.F. Pinder, Eds., A.A. Balkema, 2000, pp. 175-182.

[14] M. F. Wheeler, J. A. Wheeler, M. Peszynska, A Distributed Computing Portal for Coupling Multi-Physics and Multiple Domains in Porous Media, Computational Methods in Water Resources, L.R. Bentley, J.F. Sykes, C.A. Brebbia, W.G. Gray, and G.F. Pinder, Eds., A.A. Balkema, 2000, pp. 167-174.

[15] M.F. Wheeler, , M. Peszynska, X. Gai, O. El-Domeiri, Modeling Subsurface Flow on PC Cluster, High Performance Computing 2000, A. Tentner, Ed., SCS, pp. 318-323.

[16] Q. Lu, M. Peszynska, M.F. Wheeler, A Parallel Multi-Block Black-Oil Model in Multi-Model Implementation, (TICAM Report 01-34), SPE 66359, SPE Reservoir Simulation Symposium, Houston, TX, Feb. 11-14, 2001, in revised form [19].

[17] M. Peszynska, Advanced Techniques and Algorithms for Reservoir Simulation, III: Multiphysics coupling for two phase flow in degenerate conditions, IMA Volumes in Mathematics and its Applications, Volume 131: Resource Recovery, Confinement, and Remediation of Environmental Hazards, Eds.: J. Chadam, A. Cunningham, R.E. Ewing, P. Ortoleva, and M.F. Wheeler, pp 21-40, Springer-Verlag, 2002.

[18] M. Peszynska, M. F. Wheeler, I. Yotov, Mortar upscaling for multiphase flow in porous media, Comp. Geosciences (6), pp. 73-100, 2002.

[19] Q. Lu, M. Peszynska, M. F. Wheeler, A Parallel Multi-Block Black-Oil Model in Multi-Model Implementation, SPE Journal 7(3), pp. 278-287, September 2002, SPE 79535, revised form of [16].

[20] M. Peszynska, S. Sun, Reactive transport model coupled to multiphase flow models, Computational Methods in Water Resources, S. M. Hassanizadeh, R.J. Schotting, W.G. Gray, and G.F. Pinder, Eds., Elsevier, 2002, pp. 923-930.

[21] M.F. Wheeler, M. Peszynska, Computational Engineering and Science Methodologies for Modeling and Simulation of Subsurface Applications, Advances in Water Resources, 25 (8-12): 1147-1173, Aug-Dec 2002

[22] M. Peszynska, E.W. Jenkins, M.F. Wheeler, Boundary conditions for fully implicit two-phase flow model, Recent Advances in Numerical Methods for Partial Differential Equations and Applications, Xiaobing Feng and Tim P. Schulze, eds., Contemporary Mathematics Series (306), 2002, pp 85-106, American Mathematical Society.

[23] M. F. Wheeler, M. Peszynska, B. Riviere, Computational Science Issues in Modeling Oil and Gas Production, Proceedings of the 8th European Conference on the Mathematics of Oil Recovery-ECMOR VIII, EAGE.

[24] S. Minkoff, C. M. Stone, S. Bryant, M. Peszynska, M. F. Wheeler, Coupled Fluid Flow and Geomechanical Deformation Modeling, Journal of Petroleum Science and Engineering (2003), vol 38/1-2, pp 37 - 56.

[25] J. Saltz, U. Catalyurek, T. Kurc, M. Gray, S. Hastings, S. Langella, S. Narayanan, R. Martino, S. Bryant, M. Peszynska, M. Wheeler, A. Sussman, M. Beynon, C. Hansen, D. Stredney, and D. Sessana, Driving Scientific Applications by Data in Distributed Environments, Proceedings of International Conference on Computational Science (ICCS 2003) Part IV, Melbourne, Australia (June 2-4, 2003). Lecture Notes in Computer Science, Vol. 2660, pp. 355-364, 2003.

[26] M. Peszynska, Multiphysics Coupling of Three-Phase and Two-Phase Models of Flow in Porous Media, in Analysis and Simulation of Multifield Problems, Eds: Wolfgang Wendland, Messoud Efendiev, Lecture Notes in Applied abd Computational Mechanics 12, Springer-Verlag, 2003.

[27] S. Minkoff, C. M. Stone, S. Bryant, M. Peszynska, Coupled Geomechanics and Flow Simulation for Time-Lapse Seismic Modeling, Geophysics (69), No 1, 2004. pp 200-211.

[28] V. Bhat, V Matossian, M. Parashar, M. Peszynska, M. Sen, P. Stoffa and M. F. Wheeler, Autonomic Oil Reservoir Optimization on the Grid, Concurrency and Computation: Practice and Experience (17), 2005, pp 1-26.

[29] Tahsin Kurc, Umit Catalyurek, Xi Zhang, Joel Saltz, Ryan Martino, Mary Wheeler, Malgorzata Peszynska, Alan Sussman, Christian Hansen, Mrinal Sen, Roustam Seifoullaev, Paul Stoffa, Carlos Torres-Verdin, Manish Parashar, A Simulation and Data Analysis System for Large Scale, Data-Driven Oil Reservoir Simulation Studies, Concurrency and Computation: Practice and Experience (17), 2005, pp 1441-1467.

[30] M. Peszynska, Mortar adaptivity in mixed methods for flow in porous media, International Journal of Numerical Analysis and Modeling (2), No 3, 2005, pp 241-282.

[31] M. Peszynska, The total compressibility condition and resolution of local nonlinearities in an implicit black-oil model with capillary effects, Transport in Porous Media, ({63}), Number 1, April 2006, pp 201 - 222

[32] M. Peszynska, R.E. Showalter, Multiscale elliptic-parabolic systems for flow and transport, Electron. J. Diff. Eqns., Vol. 2007(2007), No. 147, pp. 1-30.

[33] M. Peszynska, R.E. Showalter, A.M. Spagnuolo, N. Walkington, Modeling, Analysis, and Simulation of Multiscale Nonlinear Systems , Preface to Special Issue, International Journal of Numerical Analysis and Modeling, Vol. 5 (2008), Supp, pp. (i)-(iii).

[34] M. Peszynska and S.-Y. Yi, Numerical methods for unsaturated flow with dynamic capillary pressure in heterogeneous porous media , International Journal of Numerical Analysis and Modeling, Vol. 5 (2008), Supp, pp. 126-149.

[35] C. Garibotti and M. Peszynska, Upscaling Non-Darcy Flow, Transport in Porous Media, published online March 13, 2009. DOI 10.1007/s11242-009-9369-2. Volume 80, Issue 3 (2009), Page 401.

[36] M. Peszynska, A. Trykozko, K. Augustson, Computational upscaling of inertia effects from porescale to mesoscale, ICCS 2009 Proceedings, Eds.: G. Allen, J. Nabrzyski, E. Seidel, D. van Albada, J. Dongarra, and P. Sloot, accepted (Feb. 2009). LNCS 5544, Part I, pp. 695-704. Springer-Verlag, Berlin-Heidelberg, 2009.

[37] M. Peszynska, R.E. Showalter, S.-Y.Yi, Homogenization of a pseudoparabolic system, Applicable Analysis, Vol. 88, No.9, September 2009, 1265-1282. DOI: 10.1090/00036810903277077