|
== References ==
1) B. Ataie-Ashtiani and L. Farhadi, "A stable moving particle semi-implicit method for free surface flows," Fluid Dynamics Research 38, 241–256, 2006.
2)* YB. Chikazawa, S. Koshizuka,Ataie-Ashtiani and YL. OkaFarhadi, "A stable moving particle semi-implicit method for elasticfree andsurface visco-plasticflows," structuresFluid andDynamics fluid-structureResearch interactions38," Comput. Mech. 27241–256, pp2006. 97–106, 2001.
3)* RY.A Chikazawa, S. GingoldKoshizuka, and J.JY. MonaghanOka, "SmoothedA particle hydrodynamics:method theoryfor elastic and applicationvisco-plastic tostructures nonand fluid-sphericalstructure starsinteractions," MonComput. NotMech. R. Astron. Soc., Vol 18127, pp. 375–8997–106, 19772001.
4)* HR.A. GotohGingold and TJ.J. SakaiMonaghan, "Key issues in theSmoothed particle methodhydrodynamics: fortheory computationand ofapplication waveto breakingnon-spherical stars," CoastalMon. Engineering,Not. VolR. 53Astron. Soc., NoVol 2–3181, pp. 171–179375–89, 20061977.
5)* H. Gotoh, H. Ikari, T. Memita and T. Sakai, "LagrangianKey issues in the particle method for simulationcomputation of wave overtopping on a vertical seawallbreaking," Coast.Coastal Eng. J.Engineering, Vol 4753, No 2–3, pp. 157–181171–179, 20052006.
6)* SH. HeoGotoh, SH. KoshizukaIkari, T. Memita and YT. OkaSakai, "NumericalLagrangian analysisparticle ofmethod boilingfor onsimulation highof heat-fluxwave andovertopping high subcoolingon conditiona usingvertical MPS-MAFLseawall," InternationalCoast. JournalEng. ofJ., Heat andVol Mass Transfer47, VolNo 452–3, pp. 2633–2642157–181, 20022005.
7)* AS. KhayyerHeo, S. Koshizuka and HY. GotohOka, "DevelopmentNumerical analysis of CMPSboiling methodon forhigh accurate waterheat-surfaceflux trackingand inhigh breakingsubcooling wavescondition using MPS-MAFL," Coast.International Eng.Journal J.,of VolHeat 50and Mass Transfer, NoVol 245, pp. 179–2072633–2642, 20082002.
8)* A. Khayyer and H. Gotoh, "ModifiedDevelopment Movingof ParticleCMPS Semi-implicit methodsmethod for theaccurate predictionwater-surface oftracking 2Din wavebreaking impact pressurewaves," CoastalCoast. EngineeringEng. J., Vol 5650, No 2, pp. 419–440179–207, 20092008.
9)* A. Khayyer and H. Gotoh, "AModified higherMoving orderParticle LaplacianSemi-implicit modelmethods for enhancement andthe stabilizationprediction of pressure2D calculationwave byimpact thepressure," MPSCoastal methodEngineering," AppliedVol Ocean56, Researchpp. 419–440, 2010 (in press)2009.
10)* MA. KondoKhayyer and SH. KoshizukaGotoh, "ImprovementA higher order Laplacian model for enhancement and stabilization of stabilitypressure incalculation movingby particlethe semi-implicitMPS method,", Int.Applied J.Ocean Numer. Meth. FluidResearch, 2010 (in press).
11)* SM. KoshizukaKondo and YS. OkaKoshizuka, "MovingImprovement of stability in moving particle semi-implicit method", forInt. fragmentationJ. ofNumer. incompressibleMeth. fluidFluid," Nuclear2010 Science(in and Engineering, Vol 123, pppress). 421–434, 1996.
12)* S. Koshizuka, S. and Y. Oka, "Application of Moving Particleparticle Semisemi-implicit Methodmethod tofor Nuclearfragmentation Reactorof incompressible Safetyfluid," Comput.Nuclear FluidScience Dyn.and J.Engineering, Vol 9123, pp. 366–375421–434, 20011996.
13)* S. Koshizuka, HS. Ikeda and Y. Oka, "Numerical analysisApplication of fragmentationMoving mechanismsParticle inSemi-implicit vaporMethod explosionsto Nuclear Reactor Safety," NuclearComput. EngineeringFluid andDyn. DesignJ., Vol 1899, pp. 423–433366–375, 19992001.
14)* S. Koshizuka, AH. NobeIkeda and Y. Oka, "Numerical Analysisanalysis of Breakingfragmentation Wavesmechanisms Usingin thevapor Moving Particle Semi-implicit Methodexplosions," Int.Nuclear J.Engineering Numer. Meth.and FluidDesign, Vol 26189, pp. 751–769423–433, 19981999.
15)* L.BS. LucyKoshizuka, "A. numericalNobe approachand toY. theOka, testing"Numerical Analysis of Breaking Waves Using the fissionMoving hypothesisParticle Semi-implicit Method," AstronInt. J. Numer. Meth. Fluid, Vol 8226, pp. 1013–1024751–769, 19771998.
16)* KL. Shibata and SB. KoshizukaLucy, "NumericalA analysisnumerical ofapproach shippingto waterthe impacttesting onof athe deckfission using a particle methodhypothesis," OceanAstron. EngineeringJ., Vol 3482, pp. 585–5931013–1024, 20071977.
* K. Shibata and S. Koshizuka, "Numerical analysis of shipping water impact on a deck using a particle method," Ocean Engineering, Vol 34, pp. 585–593, 2007.
17) A. Shakibaeinia and Y.C. Jin "A mesh-free particle model for simulation of mobile-bed dam break." Advances in Water Resources, 34 (6):794–807 {{doi|10.1016/j.advwatres.2011.04.011}}.
18)* A. Shakibaeinia and Y.C. Jin "A weaklymesh-free compressibleparticle MPS methodmodel for simulation open-boundaryof freemobile-surfacebed flowdam break." Int.Advances J.in Numer.Water Methods FluidsResources, 6334 (106):1208–1232 (Published Online: 7 Aug 2009794–807 {{doi|10.10021016/fldj.2132advwatres.2011.04.011}}).
19)* A. Shakibaeinia and Y.C. Jin "LagrangianA Modelingweakly ofcompressible flowMPS overmethod spillwaysfor usingsimulation movingopen-boundary particle semifree-implicitsurface methodflow." ProcInt. 33rdJ. IAHRNumer. Congress,Methods VancouverFluids, Canada,63 (10):1208–1232 (Published Online: 7 Aug 2009, 1809–1816{{doi|10.1002/fld.2132}}).
20)* A. Shakibaeinia and Y.C. Jin "MPSLagrangian Mesh-FreeModeling Particleof Methodflow forover Multiphasespillways Flowsusing moving particle semi-implicit method." ComputerProc. methods33rd inIAHR AppliedCongress, MechanicsVancouver, andCanada, Engineering.2009, 229–232: 13–261809–1816. 2012.
21)* A. Shakibaeinia and Y.C. Jin "A MPS Based Mesh-freeFree Particle Method for OpenMultiphase Channel flowFlows." JournalComputer ofmethods Hydraulicin EngineeringApplied ASCEMechanics and Engineering. 137(11)229–232: 1375–138413–26. 20112012.
* A. Shakibaeinia and Y.C. Jin "A MPS Based Mesh-free Particle Method for Open Channel flow. Journal of Hydraulic Engineering ASCE. 137(11): 1375–1384. 2011.
22) M. Sueyoshi, M. Kashiwagi and S. Naito, "Numerical simulation of wave-induced nonlinear motions of a two-dimensional floating body by the moving particle semi-implicit method," Journal of Marine Science and Technology, Vol 13, pp. 85–94, 2008.
23)* ZM. SunSueyoshi, GM. XiKashiwagi and XS. ChenNaito, "ANumerical numerical studysimulation of stirwave-induced mixingnonlinear motions of liquidsa withtwo-dimensional floating body by the moving particle semi-implicit method," ChemicalJournal Engineeringof Marine Science and Technology, Vol 6413, pp. 341–35085–94, 20092008.
24)* Z. Sun, G. Xi and X. Chen, "MechanismA numerical study of deformationstir andmixing mass transfer for binary dropletof collisionsliquids with particle method," Phys.Chemical Engineering FluidsScience, Vol 2164, 032106pp. 341–350, 2009.
* Z. Sun, G. Xi and X. Chen, "Mechanism study of deformation and mass transfer for binary droplet collisions with particle method," Phys. Fluids, Vol 21, 032106, 2009.
25) K. Tsubota, S. Wada, H. Kamada, Y. Kitagawa, R. Lima and T. Yamaguchi, "A Particle Method for Blood Flow Simulation – Application to Flowing Red Blood Cells and Platelets–," Journal of the Earth Simulator, Vol 5, pp. 2–7, 2006. ▼
▲25)* K. Tsubota, S. Wada, H. Kamada, Y. Kitagawa, R. Lima and T. Yamaguchi, "A Particle Method for Blood Flow Simulation – Application to Flowing Red Blood Cells and Platelets–," Journal of the Earth Simulator, Vol 5, pp. 2–7, 2006.
26) H. Xie, S. Koshizuka and Y. Oka, "Simulation of drop deposition process in annular mist flow using three-dimensional particle method," Nuclear Engineering and Design, Vol 235, pp. 1687–1697, 2005. ▼
▲26)* H. Xie, S. Koshizuka and Y. Oka, "Simulation of drop deposition process in annular mist flow using three-dimensional particle method," Nuclear Engineering and Design, Vol 235, pp. 1687–1697, 2005.
27) S. Zhang, K. Morita, K. Fukuda and N. Shirakawa, "An improved MPS method for numerical simulations of convective heat transfer problems," Int. J. Numer. Meth. Fluid, 51, 31–47, 2005. ▼
▲27)* S. Zhang, K. Morita, K. Fukuda and N. Shirakawa, "An improved MPS method for numerical simulations of convective heat transfer problems," Int. J. Numer. Meth. Fluid, 51, 31–47, 2005.
== External links ==
|
