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Publications

       Selected Papers Published/Accepted By Journals

  1. A unified-field monolithic fictitious domain-finite element method for fluid-structure-contact interactions and applications to deterministic lateral displacement problems, Cheng Wang, Pengtao Sun, Yumiao Zhang, Jinchao Xu, Yan Chen, Jiarui Han, Journal of Computational Physics (J. Comput. Phys.), 510 (2024), 113083.

  2. A physics-informed neural networks method for solving dynamic two-phase interface problems, Xingwen Zhu, Xiaozhe Hu, Pengtao Sun, SIAM Journal on Scientific Computing (SIAM J. Sci. Comput.), 45 (2023) A2912-A2944.   

  3. An energy-stable mixed finite element method for nonlinear fourth-order parabolic equations, Jia Tian, Mingyan He, Pengtao Sun, Journal of Computational and Applied Mathematics (J. Comput. Appl. Math.), 438 (2023), 115576.

  4. An interface-fitted fictitious domain finite element method for the simulation of neutrally buoyant particle in plane shear flow, Yi Liang, Cheng Wang, Pengtao Sun, Fluids, 8 (2023), 229.

  5. Energy-preserving finite element methods for a fourth-order nonlinear wave equation, Mingyan He, Jia Tian, Pengtao Sun, Zhengfang Zhang, Applied Numerical Mathematics (Appl. Numer. Math.), 183 (2023), 333-354.

  6. Comparative studies on mesh-free deep neural network approach versus finite element method for solving coupled nonlinear hyperbolic/wave equations, Xingwen Zhu, Mingyan He, Pengtao Sun, International Journal of Numerical Analysis & Modeling (Int. J. Numer. Anal. Mod.), 19 (2022), 603-629.

  7. Finite element approximations to a fourth-order modified Poisson-Fermi equation for electrostatic correlations in concentrated electrolytes, Mingyan He, Pengtao Sun, Hui Zhao, Computers and Mathematics with Applications (Comput. Math. Appl.), 117 (2022),  229-244.

  8. Predict blood pressure by Photoplethysmogram with the Fluid-Structure interaction modeling, Jianhong Chen, Wenrui Hao, Pengtao Sun, Lian Zhang, Communications in Computational Physics (Commun. Comput. Phys.), 31 (2022), 1114-1133.

  9. Mixed finite element method for modified Poisson-Nernst-Planck/Navier-Stokes equations, Mingyan He, Pengtao Sun, Journal of Scientific Computing (J. Sci. Comput.), 87 (2021), 80.

  10. Multiscale and monolithiic arbitrary Lagrangian-Eulerian finite element method for a hemodynamic fluid-structure interaction problem involving aneurysms, Wenrui Hao, Pengtao Sun, Jinchao Xu, Lian Zhang, Journal of Computational Physics (J. Comput. Phys.), 433 (2021), 110181.

  11. An advanced ALE-mixed finite element method for a cardiovascular fluid-structure interaction problem with multiple moving interfaces, Pengtao Sun, Chen-Song Zhang, Rihui Lan, Lin Li, Journal of Computational Science (J. Comput. Sci.), 50 (2021), 101300.

  12. An augmented Lagrangian Uzawa iterative method for solving double saddle-point systems with semi-definite (2,2) block and its application to DLM/FD method for elliptic interface problems, Cheng Wang, Pengtao Sun, Communications in Computational Physics (Commun. Comput. Phys.), 30 (2021), 124-143.

  13. The arbitrary Lagrangian-Eulerian finite element method for a transient Stokes/parabolic interface problem, Ian Kesler, Rihui Lan, Pengtao Sun, International Journal of Numerical Analysis & Modeling (Int. J. Numer. Anal. Mod.), 18 (2021), 339-361.

  14. A novel arbitrary Lagrangian-Eulerian finite element method for a parabolic/mixed parabolic moving interface problem, Rihui Lan, Pengtao Sun, Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 383 (2021), 113125.

  15. A novel arbitrary Lagrangian-Eulerian finite element method for a mixed parabolic problem on a moving domain, Rihui Lan, Pengtao Sun, Journal of Scientific Computing (J. Sci. Comput.), 85 (2020), 9.

  16. Energy-preserving finite element methods for a class of nonlinear wave equations, Mingyan He, Pengtao Sun, Applied Numerical Mathematics (Appl. Numer. Math.), 157 (2020), 446–469 .

  17. Monolithic arbitrary Lagrangian-Eulerian finite element method for a multi-domain blood flow-aortic wall interaction problem, Pengtao Sun, Chen-Song Zhang, Rihui Lan, Lin Li, Springer Lecture Notes in Computer Science (Springer Lect. Notes Comput. Sci.), 12143 (2020), 60–74.

  18. A monolithic arbitrary Lagrangian-Eulerian finite element analysis for a Stokes/parabolic moving interface problem, Rihui Lan, Pengtao Sun, Journal of Scientific Computing (J. Sci. Comput.), 82 (2020), 59.

  19. Finite element analysis of an arbitrary Lagrangian-Eulerian method for Stokes/parabolic moving interface problem with jump coefficients, Rihui Lan, Michael Ramirez, Pengtao Sun, Results in Applied Mathematics (Results Appl. Math.), 8 (2020), 100091.

  20. Distributed Lagrange multiplier/fictitious domain finite element method for Stokes/parabolic interface problems with jump coefficients, Pengtao Sun, Cheng Wang, Applied Numerical Mathematics (Appl. Numer. Math.), 152 (2020), 199-220.

  21. A conforming enriched finite element method for Stokes/elliptic interface problems, Hua Wang, Jinru Chen, Pengtao Sun, Rihui Lan, Communications in Computational Physics (Commun. Comput. Phys.), 27 (2020), 1174-1200.

  22. Distributed Lagrange multiplier-fictitious domain finite element method for Stokes interface problems, Andrew Lundberg, Pengtao Sun, Cheng Wang, International Journal of Numerical Analysis & Modeling (Int. J. Numer. Anal. Mod.), 16 (2019), 939-963.

  23. Effects of numerical integration on DLM/FD method for solving interface problems with body-unfitted meshes, Cheng Wang, Pengtao Sun, Hao Shi, Rihui Lan, Fei Xu, Springer Lecture Notes in Computer Science (Springer Lect. Notes Comput. Sci.), 11539 (2019), 551-567.

  24. Distributed Lagrange multiplier/fictitious domain finite element method for a transient Stokes interface problem with jump coefficients, Andrew Lundberg, Pengtao Sun, Cheng Wang, Chen-song Zhang, Computer Modeling in Engineering & Sciences (Comput Model Eng Sci), 119 (2019), 35-62.

  25. Fictitious domain finite element method for Stokes/elliptic interface problems with jump coefficients, Pengtao Sun, Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 356 (2019), 81-97.

  26. Numerical simulation of an immersed rotating structure in fluid for hemodynamic applications, Wei Leng, Chen-Song Zhang, Pengtao Sun, Bin Gao and Jinchao Xu, Journal of Computational Science (J. Comput. Sci.), 30 (2019), 79-89.

  27. An iterative approach for constructing immersed finite element spaces and applications to interface problems, Cheng Wang, Pengtao Sun, Zhilin Li, International Journal of Numerical Analysis & Modeling (Int. J. Numer. Anal. Mod.), 16 (2019), 167-191.

  28. Numerical simulation for proton exchange membrane fuel cells and some phenomenal studies, Shuang Zhai, Su Zhou, Pengtao Sun, Tongji University Press, Shanghai, (ISBN: 9787560870281), 2018.

  29. A linearized conservative mixed finite element method for Poisson-Nernst-Planck equations, Huadong Gao and Pengtao Sun, Journal of Scientific Computing (J. Sci. Comput.), 77 (2018), 793–817.

  30. Mixed finite element analysis for the Poisson-Nernst-Planck/Stokes coupling, Mingyan He, Pengtao Sun, Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 341 (2018), 61-79.

  31. A conforming enriched finite element method for Stokes interface problems, Hua Wang, Jinru Chen, Pengtao Sun, Nan Wang, Computers and Mathematics with Applications (Comput. Math. Appl.), 75 (2018), 4256–4271.

  32. ALE Method for a Rotating Structure Immersed in the Fluid and Its Application to the Artificial Heart Pump in Hemodynamics, Pengtao Sun, Wei Leng, Chen-Song Zhang, Rihui Lan and Jinchao Xu, Springer Lecture Notes in Computer Science (Springer Lect. Notes Comput. Sci.), 10862 (2018), 9–23.

  33. Quasi-optimal convergence rate for an adaptive hybridizable C0 discontinuous Galerkin method for Kirchhoff plates, Pengtao Sun, Xuehai Huang, Numerische Mathematik (Numer. Math.), 139 (2018), 795–829.

  34. A conforming enriched finite element method for elliptic interface problems, Hua Wang, Jinru Chen, Pengtao Sun, Fangfang Qin, Applied Numerical Mathematics (Appl. Numer. Math.), 127 (2018), 1-17.

  35. Error analysis of mixed finite element method for Poisson-Nernst-Planck system, Mingyan He, Pengtao Sun, Numerical Methods for Partial Differential Equations (Numer. Math. Part. D. E.), 33 (2017), 1924-1948.

  36. Mixed finite element analysis for an elliptic/mixed-elliptic coupling interface problem with jump coefficients, Rihui Lan, Pengtao Sun, Mo Mu, Procedia Computer Science (Procedia Comput. Sci.), 108 (2017), 1913–1922.

  37. Combined MPM-DEM for simulating the interaction between solid elements and fluid particles, Youqing Yang, Pengtao Sun, Zhen Chen, Communications in Computational Physics (Commun. Comput. Phys.), 21 (2017), 1258-1281.

  38. A fictitious domain finite element method for the parabolic problem with moving interfaces, Cheng Wang, Pengtao Sun, Journal of Scientific Computing (J. Sci. Comput.), 70 (2017), 686–716.

  39. Modeling and simulation for fluid-rotating structure interaction, Kai Yang, Pengtao Sun, Lu Wang, Jinchao Xu, Lixiang Zhang, Computer Methods in Applied Mechanics and Engineering (Comput. Methods Appl. Mech. Engrg.), 311 (2016), 788–814.

  40. Error analysis of finite element method for Poisson-Nernst-Planck Equations, Yuzhou Sun, Pengtao Sun, Bin Zheng, Guang Lin,  Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 301 (2016), 28–43.

  41. Asymptotic analysis and error estimates of mixed finite element method for Brinkman model, Pengtao Sun, Yuzhou Sun, Journal of Scientific Computing (J. Sci. Comput.), 68 (2016),116–142.

  42. A new combined finite element-upwind finite volume method for the convection-dominated diffusion problems, Cheng Wang, Mingyan He, Pengtao Sun, Numerical Methods for Partial Differential Equations (Numer. Math. Part. D. E.), 32 (2016), 799-818.

  43. Numerical simulation and experimental study of bimolecular reactive transport in porous media, Jiazhong Qian, Hongbin Zhan, Yong Zhang, Pengtao Sun, Yong Liu, Transport in Porous Media (Transport Porous Med.), 109 (2015), 727–746.

  44. A two-grid combined fnite element-upwind fnite volume method for a nonlinear convection-dominated diffusion reaction equation, Mingyan He, Pengtao Sun, Cheng Wang, Ziping Huang, Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 288 (2015), 223-232.

  45. Finite element approximation analysis  for a steady state two-phase transport model of proton exchange membrane fuel cell, Yuzhou Sun, Pengtao Sun,  Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 270 (2014), 198-210.

  46. A Dirichlet/Robin iteration-by-subdomain method for an anisotropic, nonisothermal two-phase transport model of PEM fuel cell with micro-porous layer, Pengtao Sun,  Journal of Computational and Applied Mathematics  (J. Comput. Appl. Math.), 270 (2014), 241-256.

  47. Improved understanding of bimolecular reactions in deceptively simple homogeneous media: From laboratory experiments to Lagrangian quantification, Yong Zhang, Jiazhong Qian, Charalambos Papelis, Pengtao Sun, Zhongbo Yu, Water Resources Research (Water Resour. Res.), 50 (2014), 1704-1715.

  48. Full Eulerian finite element method of a phase field model for fluid-structure interaction problem, Pengtao Sun, Jinchao Xu, Lixiang Zhang, Computers and Fluids (Comput. Fluids), 90 (2014), 1-8.

  49. Evaluation and linking of effective parameters in particle-based models and continuum models for mixing-limited bimolecular reactions, Yong Zhang, Charalambos Papelis, Pengtao Sun, Zhongbo Yu, Water Resources Research (Water Resour. Res.), 49 (2013), 4845-4865.

  50. An overlapping domain decomposition method for a 3D PEMFC model, Cheng Wang, Mingyan He, Ziping Huang, Pengtao Sun, Lecture Notes in Computational Science and Engineering (Lect. Notes Comput. Sci. Eng.), Springer Berlin Heidelberg, 91 (2013), 119-126.

  51. An effective combined finite element-upwind finite volume method for a transient multiphysics two-phase transport model of proton exchange membrane fuel cell, Pengtao Sun, Su Zhou, Qiya Hu, Journal of Fuel Cell Science and Technology (J. Fuel Cell Sci. Tech.), 10 (2013) 031004-1 - 031004-11.

  52. Numerical analysis of finite element method for a transient two-phase transport model in the cathode of polymer electrolyte fuel cell, Yuzhou Sun, Mingyan He, Pengtao Sun, Procedia Computer Science (Procedia Comput. Sci.), 18 (2013), 2167-2176.

  53. Experimental study and numerical simulation of bimolecular reactive transport in porous media, Jia-zhong Qian, Ya-nan Wu, Yong Zhang, Pengtao Sun, Journal of University of Science and Technology of China, 43(2013), 104-109.

  54. Full Eulerian modeling and effective numerical studies for the dynamic fluid-structure interaction problem, Pengtao Sun, Lixiang Zhang, Chun Liu and Jinchao Xu, Recent Advances in Scientific Computing and Applications, Contemporary Mathematics, 586 (2013), 351-363.

  55. Modeling and numerical studies for a 3D two-phase mixed-domain model of PEM fuel cell, Mingyan He, Ziping Huang, Pengtao Sun, Cheng Wang, Journal of The Electrochemical Society (J. Electrochem. Soc.), 160 (2013), F324-F336.

  56. A domain decomposition method for a two-phase transport model of polymer electrolyte fuel cell containing micro-porous layer, Pengtao Sun, International Journal for Numerical Methods in Engineering (Int. J. Numer. Math. Eng.), 91(2012), 1115-1136.

  57. Modeling Study of Anode Water Flooding and Gas Purge for PEMFCs, Shuang Zhai, Su Zhou, Pengtao Sun, Fengxiang Chen and Jigao Niu, Journal of Fuel Cell Science and Technology (J. Fuel Cell Sci. Tech.), 9 (2012), 031007-1 - 031007-9.

  58. Efficient numerical methods for an anisotropic, nonisothermal, two-phase transport model of proton exchange membrane fuel cell, Pengtao Sun, Acta Applicandae Mathematicae (Acta Appl. Math.), 118 (2012), 251-279.

  59. Advanced study of non-uniform cell voltage distribution for a PEMFC stack, Shuang Zhai, Su Zhou, Pengtao Sun, Fengxiang Chen and Kai Sundmacher, Journal of Fuel Cell Science and Technology (J. Fuel Cell Sci. Tech.), 9 (2012), 011014-1 - 011014-8.

  60. Numerical study of a 3D two-phase PEM fuel cell model via a novel automated finite element/finite volume program, Pengtao Sun, Su Zhou, Qiya Hu and Guoping Liang, Communications in Computational Physics (Commun. Comput. Phys.), 11 (2012), 65-98.

  61. An efficient two-grid method for a two-phase mixed-domain model of polymer exchange membrane fuel cell, Mingyan He, Ziping Huang, Cheng Wang, Pengtao Sun, Procedia Computer Science (Procedia Comput. Sci.), 9 (2012), 689-698.

  62. Modeling studies and efficient numerical methods for proton exchange membrane fuel cell, Pengtao Sun, Computer Methods in Applied Mechanics and Engineering (Comput. Methods Appl. Mech. Engrg.), 200 (2011), 3324-3340.

  63. Modeling and simulation study on the complex seepage mechanism of porous electrode for a proton exchange membrane fuel cell, Hui He, Pengtao Sun and Yousheng Xu, Advanced Materials Research (Adv. Mater. Res.), Vols. 295 - 297 (2011), 1972-1977.

  64. Numerical studies of thermal transport and mechanical effects due to thermal-inertia loading in PEMFC stack in sub-freezing environment, Pengtao Sun, Su Zhou, Journal of Fuel Cell Science and Technology (J. Fuel Cell Sci. Tech.), 8 (2011), 011010-1 - 011010-24.

  65. SIMULINK/FLUENT based collaborative simulation for PEM fuel cells, Mingyan He, Su Zhou, Ziping Huang and Pengtao Sun, Acta Simulata Systematica Sinica, 23 (2011), No.1,  38-43.

  66. An overlapping domain decomposition method for a polymer exchange membrane fuel cell model, Mingyan He, Ziping Huang, Cheng Wang, Pengtao Sun and Shuang Zhai, Procedia Computer Science (Procedia Comput. Sci.), 4 (2011), 1343-1352.

  67. Collaborative simulation for dynamical PEMFC power systems, Shuang Zhai, Pengtao Sun, Fengxiang Chen, Su Zhou and Chuansheng Zhang, International Journal of Hydrogen Energy (Int. J. Hydrogen Energ.), 35 (2010), 8772-8782.

  68. A Combined Finite Element-Upwind Finite Volume Method for Liquid-Feed Direct Methanol Fuel Cell Simulations, Pengtao Sun, Chaoyang Wang, Jinchao Xu, Journal of Fuel Cell Science and Technology (J. Fuel Cell Sci. Tech.), 7 (2010), 041010-1 - 041010-14.

  69. Numerical studies of adaptive finite element methods for two dimensional convection-dominated problems, Pengtao Sun, Long Chen and Jinchao Xu, Journal of Scientific Computing (J. Sci. Comput.), 43 (2010), 24-43.

  70. Phase field model of thermo-induced Marangoni effects in the mixtures and its numerical simulations with mixed finite element method, Pengtao Sun, Chun Liu and Jinchao Xu, Communications in Computational Physics (Commun. Comput. Phys.), 6 (2009), 1095-1117.

  71. Fast numerical simulation of two-phase transport model in the cathode of a polymer electrolyte fuel cell, Pengtao Sun, Guangri Xue, Chaoyang Wang and Jinchao Xu, Communications in Computational Physics (Commun. Comput. Phys.), 6 (2009), 49-71.

  72. A domain decomposition method for two-phase transport model in the cathode of a polymer electrolyte fuel cell. Pengtao Sun, Guangri Xue, Chaoyang Wang and Jinchao Xu, Journal of Computational Physics (J. Comput. Phys.), 228 (2009), 6016-6036.

  73. New numerical techniques for a liquid feed 3D full direct methanol fuel cell model, Pengtao Sun, Guangri Xue, Chaoyang Wang and Jinchao Xu, SIAM Journal on Applied Mathematics (SIAM J. Appl. Math.), 70 (2009), 600-620.

  74. A new adaptive local mesh refinement algorithm and its application on fourth order thin film flow problem, Pengtao Sun, Robert Russell and Jinchao Xu,  Journal of Computational Physics (J. Comput. Phys.), 224 (2007), 1021-1048.

  75. Optimal anisotropic meshes for minimizing interpolation errors in Lp-norm, Long Chen, Pengtao Sun and Jinchao Xu, Mathematics of Computation (Math. Comp.), 76 (2007), 179-204.

  76. A toy model for testing finite element methods to simulate extreme-mass-ratio binary systems, Carlos F. Sopuerta, Pengtao Sun, Pablo Laguna and Jinchao Xu, Classical and Quantum Gravity (Classical Quant. Grav.), 23 (2006), 251-285.

  77. Multilevel homotopic adaptive finite element methods for convection dominated problems, Long Chen, Pengtao Sun and Jinchao Xu, Lecture Notes in Computational Science and Engineering (Lect. Notes Comput. Sci. Eng.), Springer Berlin Heidelberg, 40 (2005), 459-468.

  78. Technical analysis of pressure vessel analytical design software VAS2.0, Hong Wei, Pengtao Sun, Process Equipment & Piping (Proc. Equip. Piping), 38 (2001), No.3, 54-57.

  79. Thermal stress finite element analysis of pipe-plate heat exchanger based on the criterion of JB4732-95 ― The application of pressure vessel analysis & design software VAS2.0, Hong Wei, Pengtao Sun, Process Equipment & Piping (Proc. Equip. Piping), 38 (2001), No.6, 56-59.

  80. Solving parabolic problem by domain decomposition methods with Lagrangian multipliers, Qiya Hu, Pengtao Sun and Guoping Liang, Journal of Computational Mathematics (J. Comput. Math.), 22 (2000), 241-256.

  81. Mixed Finite Elements for Parabolic Integro-Differential Equations, Pengtao Sun , Acta Mathematica Scientia (Acta Math. Sci.), 17 (1997), 319-329.

  82. The non-conforming Wilson finite element method for parabolic integro-differential equations, Pengtao Sun, Acta Mathematica Scientia (Acta Math. Sci.), Vol. 16, No. S1 (1996), 57-65.

  83. The F.E.M. for hyperbolic integro-differential equation and the application of Interpolated postprocessing technique, Pengtao Sun, Mathematica Applicata (Math. Appl.), 9 (1996), 433-440.

  84. The interpolated postprocessing technique of the F.E.M. for nonlinear parabolic integro-differential equations, Pengtao Sun, Journal of Systems Science and Mathematical Sciences (J. Sys. Sci. Math. Sci.), 16 (1996), 159-171.

  85. Elliptic H2-Volterra projection and the H1-Galerkin methods for the integro- differential equations of evolution, Pengtao Sun, Journal of Applied Mathematics (J. Appl. Math.), 10 (1995), 11-24.

  86. Finite element method with moving mesh for nonlinear parabolic integro-differential equations, Pengtao Sun, Journal of Shandong University of Science and Technology (Natural Science) (J. Shandong Univ. Nat. Sci. Ed.), 30 (1995), 227-235.

  87. Effects of quadrature errors in finite element methods for nonlinear hyperbolic integro-differential equations, Pengtao Sun, Journal of Shandong University of Science and Technology (Natural Science) (J. Shandong Univ. Nat. Sci. Ed.), 30 (1995), 43-51.

  88. The analysis of approximation for F.E.M. for nonlinear hyperbolic integro- differential equations, Pengtao Sun, Journal of Engineering Mathematics (J. Eng. Math.), 11 (1994), 76-82.

       Selected Papers Published/Accepted By Conference Proceedings

  1. Atom ionization in metal Cutting, Zhiyong Wang, James Jacobs, Pengtao Sun, Proceeding of ASME International Mechanical Engineering Congress and Exposition, Phoenix, Arizona, USA, November 11–17, 2016. Vol. 2: Advanced Manufacturing (IMECE2016-65434), pp. V002T02A001, DOI:10.1115/IMECE2016-65434, 2016.

  2. Error estimates of finite element method with Kirchhoff transformation for a two-phase transport model of proton exchange membrane fuel cell, Yuzhou Sun, Mingyan He, Pengtao Sun, 4th International Congress on Computational Engineering and Sciences, Las Vegas, Nevada, May 19 - 24, 2013.

  3. A Dirichlet/Robin iteration-by-subdomain method for an anisotropic, nonisothermal two-phase transport model of PEM fuel cell with micro-porous layer, Pengtao Sun, 4th International Congress on Computational Engineering and Sciences, Las Vegas, Nevada, May 19 - 24, 2013.

  4. Two-grid Method for a 3D Two-phase Mixed-domain Non-isothermal Model of PEM Fuel Cell, Mingyan He, Cheng Wang, Pengtao Sun, Ziping Huang, Yuzhou Sun, 4th International Congress on Computational Engineering and Sciences, Las Vegas, Nevada, May 19 - 24, 2013.

  5. Development of a Mathematical Model for the Complex Seepage Mechanism of Porous Electrode for a Proton Exchange Membrance Fuel Cell, Xiaoning Xu, Hui He, Pengtao Sun, Yousheng Xu, Proceedings of the 2012 International Conference on Electronics, Communications and Control, 2012/10/16, 946-950.

  6. The efficient numerical techniques for a transient two-phase transport model of polymer electrolyte membrane fuel cell, Pengtao Sun, Su Zhou, Proceeding of ASME Tenth International Conference on Fuel Cell Science, Engineering & Technology, San Diego, California, July 23-26, 2012.

  7. A mixed finite element method with time relaxation for recirculating flows: the slip with friction boundary condition, Monika Neda and Pengtao Sun, AIP Conference Proceedings-American Institute of Physics, Advances in Mathematical and Computational Methods: Addressing Modern Challenges of Science, Technology, and Society, July 25–29, 2011, Waterloo, Canada. Vol. 1368, 5-8.

  8. Experimental Investigation of Gas Purge and Voltage Undershoot for An Air–Breathing PEMFC, Shuang Zhai, Jigao Niu, Pengtao Sun, Fengxiang Chen and Su Zhou, Proceeding of ASME Ninth International Conference on Fuel Cell Science, Engineering & Technology, Washington DC, August 7-10, 2011, 187-194.

  9. Multiple-Model Adaptive Control for PEMFC Stack in the Applications of Vehicle, Su Zhou, Chuansheng Zhang, Fengxiang Chen, Shuang Zhai, Pengtao Sun, Proceeding of ASME Ninth International Conference on Fuel Cell Science, Engineering & Technology, Washington DC, August 7-10, 2011.

  10. Lattice Boltzmann simulation of solid oxide fuel cell performance, Yousheng Xu, Pengtao Sun, Hui He, Yang Liu and Meiying Ye, Proceeding of ASME Ninth International Conference on Fuel Cell Science, Engineering & Technology, Washington DC, August 7-10, 2011, 525-535.

  11. An overlapping domain decomposition method for a polymer exchange membrane fuel cell model, Mingyan He, Ziping Huang, Cheng Wang and Pengtao Sun, Abstract #251, 219th ECS Meeting, The Electrochemical Society, Montreal, QC, Canada, May 1-6, 2011.

  12. Modeling Study of Thermal Management for Li-Ion Battery Module, Shuang Zhai, Pengtao Sun, Fengxiang Chen and Su Zhou, Abstract #244, 219th ECS Meeting, The Electrochemical Society, Montreal, QC, Canada, May 1-6, 2011.

  13. Modeling studies and efficient numerical methods for proton exchange membrane fuel cell, Pengtao Sun, Abstract of AMS 2011 Spring Western Section Meeting, Las Vegas, NV, April 30 - May 1, 2011.

  14. Analysis of non-uniform cell voltages distribution in PEM fuel cell stack, Shuang Zhai, Pengtao Sun, Fengxiang Chen, Chuansheng Zhang and Su Zhou, Proceeding of ASME Eighth International Conference on Fuel Cell Science, Engineering and Technology, Brooklyn, New York, June 14-16, 2010, Vol. 1, 481-488.

  15. Modeling and Numerical Simulation of PEM Fuel Cell Transient ,Yun Wang and Pengtao Sun,  Proceeding of ASME Eighth International Conference on Fuel Cell Science, Engineering and Technology, Brooklyn, New York, June 14-16, 2010, Vol. 1, 555-560.

  16. A new formulation and an efficient numerical technique for a nonisothermal, anisotropic, two-phase transport model of PEMFC, Pengtao Sun and Yun Wang, Proceeding of ASME Eighth International Conference on Fuel Cell Science, Engineering and Technology, Brooklyn, New York, June 14-16, 2010, Vol. 1, 561-572.

  17. A New Formulation of Polymer Flooding Model for Multiphase Flows in Porous Media, Pengtao Sun, Poster of International Conference on Computational Science (ICCS), Amsterdam, Netherlands, May 31 - June 2, 2010.

  18. A new formulation and an efficient numerical technique for a nonisothermal, anisotropic, two-phase transport model of PEMFC, Presentation of IMA PI Workshop on Numerical Simulation of Complex Fluids and MHD, Pennsylvania State University, March 1-3, 2010.

  19. Numerical studies of heat transport for polymer electrolyte fuel cell stack in sub-freezing environment, Pengtao Sun, Su Zhou and Ziping Huang, Proceeding of ASME Seventh International Conference on Fuel Cell Science, Engineering and Technology, June 8–10, 2009, 299-313.

  20. A combined finite element-upwind finite volume-Newton's method for liquid-feed direct methanol fuel cell simulations, Pengtao Sun, Guangri Xue, Chaoyang Wang and Jinchao Xu, Proceeding of ASME Sixth International Conference on Fuel Cell Science, Engineering and Technology, June 16–18, 2008, 851-864 .

  21. Lagrangian multiplier based domain decomposition method with non-matching grids for time-dependent equations, Pengtao Sun, Hong Wei, High Performance Computing in the Asia-Pacific Region, 2000. Proceedings. The Fourth International Conference/Exhibition on Volume 2 (2000), 998 - 1000.

  22. Trans-basinal fluid migration between fault-bound basins on the south China margin, Wang, C. Y., M. J. Wang, Pengtao Sun, G. P. Liang, and H. Cui, in Liu Baojun et al., eds., Proceedings of the 30th International Geological Congress, New York, Springer-Verlag, Vol. 8 (1997), 1-16.

  23. Interpolated post-processing technique for convection and diffusion equation, Pengtao Sun, The Proceedings of the Sixth National Symposium on Numerical Methods for Fluid Dynamics, Jinan, China, 1993.

       Dissertations/Theses By Advised Graduate Students

  1. Andrew Lundberg, "Distributed Lagrange multiplier/fictitious domain finite element method for solving steady and unsteady Stokes interface problems" (2020), UNLV Theses, Dissertations, Professional Papers, and Capstones.

  2. Lan, Rihui, "Advanced Arbitrary Lagrangian-Eulerian Finite Element Methods for Unsteady Multiphysics Problems Involving Moving Interfaces/Boundaries" (2020). UNLV Theses, Dissertations, Professional Papers, and Capstones. 3915.

  3. Kesler, Ian, "A Monolithic Arbitrary Lagrangian-Eulerian Finite Element Method for an Unsteady Stokes/Parabolic Interface Problem" (2019). UNLV Theses, Dissertations, Professional Papers, and Capstones. 3627.

  4. Ramirez, Michael Joseph, "Numerical Study in the Conservative Arbitrary Lagrangian-Eulerian (ALE) Method for an Unsteady Stokes/Parabolic Interface Problem with Jump Coefficients and a Moving Interface" (2019). UNLV Theses, Dissertations, Professional Papers, and Capstones. 3666.

  5. Sun, Yuzhou, "Modeling studies and numerical analyses of coupled PDEs system in electrohydrodynamics" (2015). UNLV Theses, Dissertations, Professional Papers, and Capstones. 2435.

    6.

       Papers Submitted/In Preprint

  1. Numerical studies for an interface problem involving fourth and second order Poisson-Fermi electrostatic equations, Mengjie Liu, Mingyan He, Pengtao Sun, 2024 (submitted).

  2. Mixed finite element analysis for a modified Poisson-Fermi interface problem accounting for electrostatic correlations, Mengjie Liu, Mingyan He, Pengtao Sun, 2024 (submitted).

  3. Optimal convergence of an arbitrary Lagrangian-Eulerian finite element method for fluid-structure interactions, Buyang Li, Qiqi Rao, Pengtao Sun, 2024 (submitted).

  4. A projection-based time-segmented reduced order model for fluid-structure interactions, Qijia Zhai, Shiquan Zhang, Pengtao Sun, Xiaoping Xie, 2024 (submitted).

  5. Efficient numerical techniques for simulating deterministic lateral displacement/fluid-structure interaction problems, Cheng Wang, Pengtao Sun, Yongxin Chen, Yumiao Zhang, Yan Chen, Jiarui Han, Jinchao Xu, 2024 (in preprint).

  6. Monolithic arbitrary Lagrangian-Eulerian finite element analysis for dynamic fluid-structure interaction problems, Linjie Ying, Rihui Lan, Pengtao Sun, 2024 (in preprint).

  7. Deep neural network approximation to dynamic fluid-structure interaction problems, Xingwen Zhu, Pengtao Sun, Xiaozhe Hu, 2024 (in preprint).

      Papers In Progress

 

       Google Scholar Profile

 

 

       Selected Technical Reports

 

Advanced modeling and numerical studies for polymer electrolyte membrane fuel cell (PEMFC) power system, Technical Report, College of Automotive Engineering, Tongji University, June 5 - August 25, 2011.

Modeling and numerical simulation studies and self-innovated software development for polymer electrolyte membrane fuel cell (PEMFC) power system, Technical Report, College of Automotive Engineering, Tongji University, May 30 - August 19, 2010.

Modeling and numerical studies for polymer electrolyte membrane fuel cell (PEMFC) power system, Technical Report, College of Automotive Engineering, Tongji University, May 11 - June 28, 2009.

Numerical simulations for polymer electrolyte membrane fuel cells (PEMFCs), Technical Report, College of Automotive Engineering, Tongji University, May 20 - July 11, 2008.

Models research on the cathode of fuel cell, Pengtao Sun and Jinchao Xu, Technical Report of Department of Mathematics, Pennsylvania State University, AM317, 2007.

Research notes of numerical simulation on two-phase steady-state transport model in PEFC cathode, Pengtao Sun and Jinchao Xu, Technical Report of Department of Mathematics, Pennsylvania State University, AM318, 2007.

   

Last updated: 05/15/2024

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