Andrei Smirnov, Andrew Burt, Hanzhou Zhang, and Ismail Celik
[1] S. Littmarck, Math, models, motion, and more, PT Design,May 2000, 29–33. [2] S. Littmarck, Solving differential equations, The IndustrialPhysicist, February 2001, 21–23. [3] J. Thilmany, More than one force of nature, MechanicalEngineering, 124, 2002, 49–51. [4] M.A. Troscinski, Real-world modeling keeps analysis honest,Machine Design, 68, 1996, 66–68. [5] S.M. Rifai, Z. Johan, W.-P. Wang, T.J.R. Grisval, J.-P. Hughes,& R.M. Ferencz, Multiphysics simulation of flow-induced vi-brations and aeroelasticity on parallel computing platforms,Computational Methods in Applied Mechanical Engineering,174 (3–4), 1999, 393–417. [6] I. Yotov, A multilevel Newton-Krylov interface solver formultiphysics couplings of flow in porous media: Solutionmethods for large-scale non-linear problems, Numerical LinearAlgebra with Applications, 8, 2001, 551–570. [7] A.V. Smirnov, Multi-physics modeling environment for contin-uum and discrete dynamics, International Journal of Modellingand Simulation, 24(3), 2004, 190–197. [8] A.V. Smirnov, Multi-physics modeling environment for con-tinuum and discrete dynamics, IASTED International Con-ference: Modelling and Simulation, Number 174 in MS-380,Palm Springs, CA, 2003. [9] A. Quanteroni & A. Valli, Domain decomposition method forpartial differential equations (Oxford, UK: Oxford SciencePublications, 1999). [10] J. Rumbaugh, I. Jacobson, & G. Booch, The unified modelinglanguage reference manual (Reading, MA: Addison-Wesley,1999). [11] A.V. Smirnov, H. Zhang, & B. Sowers, Voxel-based volumegraphics system for multi-physics modeling, The 8th WorldMulti-Conference on Systemics, Cybernetics and Informatics,Volume 5 of Computer Science and Engineering, InternationalInstitute of Informatics and Systemics, Orlando, Florida, 2004,144–149. [12] A.V. Smirnov, H. Zhang, A. Burt, & I. Celik, Fuel-cell simulatorinterface, Journal of Power Sources, 138 (1–2), 2004, 187–193. [13] A.V. Smirnov, H. Zhang, A. Burt, & I. Celik, Remote interfacefor geometric design and simulation control, in H.R. Arabina(Ed.), The 2004 International Conference on Imaging Science,Systems, and Technology: CISST’04 (Las Vegas, NV: CSREAPress, 2004), 241–247. [14] J. Achenbach, Three dimensional and time-dependent simula-tion of a planar solid oxide fuel cell stack, Journal of PowerSources, 49, 1994, 333–348. [15] J.R. Ferguson, J.M. Fiard, & R. Herbin, Three-dimensionalnumerical simulations for various geometries of solid-oxide fuelcells, Journal of Power Sources, 58, 1996, 109–122. [16] W. He & Q. Chen, Three-dimensional simulation of a moltencarbonate fuel cell stack under transient conditions, Journalof Power Sources, 73, 1998, 182–192. [17] A.C. Burt, I.B. Celik, R.S. Gemmen, & A.V. Smirnov, Anumerical study of cell to cell variations in a SOFC stack,Journal of Power Sources, 126 (1–2), 2004, 76–87. [18] A.C. Burt, I.B. Celik, R.S. Gemmen, & A.V. Smirnov, Cell tocell performance variations within a stack, Eighth InternationalSymposium on Solid Oxide Fuel Cells (SOFC VIII), Paris,France, 2003, 217–223. [19] A.C. Burt, I.B. Celik, R.S. Gemmen, & A.V. Smirnov, Influenceof radiative heat transfer on variation of cell voltage withina stack, First International Conference on Fuel Cell Science,Engineering, and Technology, Rochester, NY, 2003, 1487–1500. [20] U. Pasaogullri & C.-Y. Wang, Computational fluid dynamicsmodeling of solid oxide fuel cells, in S.C. Singhal & M. Dokiya(Eds.), The Electrochemical Society, Inc. (Pennington, NewJersey, USA: Electrochemical Society Proceedings, 2003–07),Solid oxide fuel cells VIII, 7, 1403–1435, 2003. [21] A. Smirnov, A. Burt, & I. Celik, Multi-physics simulations offuel cells using multi-component modeling, Journal of PowerSources, Elsevier, POWER 7351, POWER-D-05-00549, 158,2006, 295–302. [22] A.V. Smirnov, Multi-physics modeling environment for contin-uum and discrete dynamics, International Journal of Modellingand Simulation, ACTA Press/IASTED, 24(3), 2004, 190–197.414
Important Links:
Go Back
