流体流参考书目

[149]
Advani, S.G., Tucker, C. L. 1987."The Use of Tensors to Describe and Predict Fiber Orientation in Short Fiber Composites", J. Rheology, 31(8), p. 751.

[150]
Balci, N., Thomases, B., Renardy, M., Doering, C.R.2011."Symmetric factorization of the conformation tensor in viscoelastic fluid models", J. Non-Newtonian Fluid Mechanics, 166, pp. 546-553.

[151]
Baltussen, M.G.H.M., et al.2010."Anisotropy parameter restrictions for the eXtended Pom-Pom model", J. Non-Newtonian Fluid Mech., 165, pp. 1047-1054.

[152]
Batchelor, G.K., 1971."The stress generated in a non-dilute suspension of elongated particles by pure straining motion", J. of Fluid Mechanics, 46(4), pp. 813-829.

[153]
Bay, R.S.1991.Fiber orientation in injection-molded composites: A comparison of theory and experiment.PhD Thesis, Dept. of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign.

[154]
Bingham, E.C.1916 '"An Investigation of the Laws of Plastic Flow" .US Bureau of Standards Bulletin, 13, pp. 309-353.

[155]
Bird, R.B., Armstrong, R.C, Hassager, Ole.1987.Dynamics of Polymeric Liquids, I-II.John Wiley & Sons, New York.

[156]
Bird, R.B., Stewart, W.E., and Lightfoot, E.N.1966.“Transport Phenomena”.John Wiley & Sons, New York.

[157]
Burton,T., Jenkins, N., Sharpe, D., Bossanyi, E. 2011.“Wind Energy Handbook”, 2nd ed., Wiley.

[158]
Carreau, P.J.1972."Rheological equations from molecular network theories", J. Rheol., 16(1), pp. 99-127.

[159]
Chima, R.V., and Liou, M.-S. 2003.“Comparison of the AUSM+ and H-CUSP Schemes for Turbomachinery Applications”, NASA/TM-2003-212457.

[160]
Chung, D.H., Kwon, T.H.2002."Invariant-based optimal fitting closure approximation for the numerical prediction of flow-induced fiber orientation", J. Rheology, 46, p. 169.

[161]
Cross, M.M.1965."Rheology of non-Newtonian fluids: A new flow equation for pseudoplastic systems", J. Colloid Sci., 20(5), pp. 417-437.

[162]
Demirdzic, I., Lilek, Z., and Peric, M. 1993.“A collocated finite volume method for predicting flows at all speeds”, Int. J. for Numerical Methods in Fluids, 16, pp. 1029-1050.

[163]
Demirdzic, I. and Muzaferija, S. 1995.“Numerical method for coupled fluid flow, heat transfer and stress analysis using unstructured moving meshes with cells of arbitrary topology”, Comput.Methods Appl.Mech.Eng., pp. 1-21.

[164]
Dinh, S.M., Armstrong, R.C.2000."A Rheological Equation of State for Semiconcentrated Fiber Suspensions", J. of Rheology 28, p. 207.

[165]
Dupret, F., Marchal, J.M.1986."Loss of evolution in the flow of viscoelastic fluids", J. Non-Newtonian Fluid Mech., 20, pp. 143-171.

[166]
Escudier, M.P., Poole, R.J., Dales, C., Nouar, C., Desaubry, C., Gresham, L. and Pullum, L. 2005.Observations of asymmetrical flow behaviour in transitional pipe flow of yield-stress and other shear thinning liquidsԬ J. Non-Newtonian Fluid Mechanics, 127, pp. 143-155.

[167]
Ferziger, J.H. and Peric, M. 2002.“Computational Methods for Fluid Dynamics”, 3rd rev. ed., Springer-Verlag, Berlin.

[168]
Ferry, John D., 1980.Viscoelastic Properties of Polymers, 3rd edition, Wiley.

[169]
Giles, M.B.1988.“Non-reflecting boundary conditions for the Euler equations”, CFDL Report 88-1, MIT Dept. of Aero. and Astro.

[170]
Giles, M.B.1990.“Non-reflecting boundary conditions for Euler equation calculations”, AIAA Journal, 28(12):2050-2058.

[171]
Giles, M.B.1991 "UNSFLO: A numerical method for unsteady flow in turbomachinery", Gas Turbine Laboratory Report GTL 205, MIT Dept. of Aero. and Astro.

[172]
Gnoffo, P. A., Gupta, R. N., and Shinn, J. L. 1989.“Conservation Equations and Physical Models for Hypersonic Air Flows in Thermal and Chemical Nonequilibrium”, NASA TP-2867.

[173]
Graboski, M. S. and Daubert, T. E. 1978.“A Modified Soave Equation of State for Phase Equilibrium Calculations: Hydrocarbon Systems”, Ind. Eng. Chem.Process Des.Dev., 17(4), pp. 443-448.

[174]
Graboski, M. S. and Daubert, T. E. 1978.“A Modified Soave Equation of State for Phase Equilibrium Calculations: Systems Containing CO2, H2S, N2, and CO”, Ind. Eng. Chem.Process Des.Dev., 17(4), pp. 448-454.

[175]
Guenette, R., Fortin, M. 1995."A new mixed finite element method for computing viscoelastic flows", J. Non-Newtonian Fluid Mechanics.60, pp 27-52.

[176]
Gupta, R. N., Lee, K. P., Thompson, R. A., and Yos, J. M. 1991.“Calculations and Curve Fits of Thermodynamic and Transport Properties for Equilibrium Air to 30000 K”, NASA STI/Recon Technical Report N, 92, 11285.

[177]
Hansen, M. 2007.“Aerodynamics of Wind Turbines, 2nd ed. Routledge.

[178]
Hill, D. A., Hasegawa, T., Denn, M. M. 1990."On the apparent relation between adhesive failure and melt fracture," J. of Rheology, 34(6)

[179]
Hinch, E.J., Leal, L.G.1975."Constitutive equations in suspension mechanics."J. Fluid Mech.71(3), pp.481-495.

[180]
Hosangadi, A., Sachdev, J. , Sankaran, V. 2012."Improved Flux Formulations for Unsteady Low Mach Number Flows".ICCFD7 proceedings.

[181]
Huang, H., and Ayoub, J. 2006.“Applicability of the Forchheimer Equation for Non-Darcy Flow in Porous Media”.SPE Journal, March 2008, pp. 112-122.

[182]
International Association for the Properties of Water and Steam.2007.Revised Release on the IAPWS Industrial Formulation 1997 for the Thermodynamic Properties of Water and Steam, IAPWS Secretariat, Lucerne, Switzerland.(available at www.iapws.org).

[183]
Issa, R. I. , Gosman, A. D., and Watkins, A. P., 1986."The Computation of Compressible and Incompressible Recirculating Flows by a Non-Iterative Implicit Scheme", J. Computational Physics, 62(1).

[184]
Jameson, A., Schmidt, W. and Turkel, E. 1981.“Numerical solution of the Euler equations by finite volume methods using Runge-Kutta time stepping schemes”, AIAA Paper 81-1259.

[185]
Lau, H. C., Schowalter, W. R. 1986."A Model for Adhesive Failure of Viscoelastic Fluids During Flow", J. of Rheology, 30(1).

[186]
Lee, J.S., Dylla-Spears, R., Teclemariam, N.P., and Muller, S.J.2007."Microfluidic four-roll mill for all flow types", Applied Physics Letters, 90, 074103.

[187]
Legat, V., Marchal, J.M.1992."Predictions of threedimensional general shape extrudates by an implicit iterative scheme," Int. J. for Numerical Methods in Fluids, 14, 609-625.

[188]
Likhtman, A. E., Graham, R. S. 2003."Simple constitutive equation for linear polymer melts derived from molecular theory: Rolie-Poly equation" , J. of Non-Newtonian Fluid Mech., 114-1, pp. 1-12.

[189]
Liou, M.-S. 1996.“A Sequel to AUSM: AUSM+”, J. Comput.Phys., 129: 364-382.

[190]
Liou, M.-S. 2001.“Ten Years in the Making--AUSM-Family”, AIAA 2001-2521.

[191]
Lipscomb, G.G., Denn, M.M., Hur, D.U., Boger, D.V.1988."The flow of fiber suspensions in complex geometries", J. of Non-Newtonian Fluid Mechanics, 26(3), pp. 297-325.

[192]
Lockwood, B. A. 2012.“Gradient-based Approaches for Sensitivity Analysis and Uncertainty Quantification within Hypersonic Flows”, Ph.D.Dissertation, University of Wyoming.

[193]
Loehmer, R. 2009.“On Limiters for Minimal Vorticity Dissipation”, AIAA 2009-135.

[194]
Lynn, N. and Steinhoff, J. 2007.“Large Reynolds Number Turbulence Modeling with Vorticity Confinement”, AIAA 2007-3965.

[195]
Makkonen, L. 2000.“Models for the growth of rime, glaze, icicles and wet snow on structures”, Phil.Trans.R. Soc.Lond.A, 358, pp. 2913-2939.

[196]
Manwell, J.F., McGowan, J., and Rogers, A. 2009.“Wind Energy Explained: Theory, Design and Application”, 2nd ed. Wiley.

[197]
Mathur, S.R. and Murthy, J.Y.1997.“Pressure-based method for unstructured meshes”, Numerical Heat Transfer, Part B: Fundamentals, 31(2), pp. 195-214.

[198]
Mathur, S.R. and Murthy, J.Y.1997.“Pressure boundary conditions for incompressible flow using unstructured meshes”, Numerical Heat Transfer, Part B: Fundamentals, 32(3), pp. 283-298.

[199]
Oldroyd, J. 1950."On the Formulation of Rheological Equations of State" , Proceedings of the Royal Society of London, Series A, Mathematical and Physical Sciences, 200, pp. 523-541.

[200]
Pasquali, M., and Scriven, L.E.2002."Free surface flows of polymer solutions with models based on the conformation tensor", J. Non-Newtonian Fluid Mechanics, 108,1-3, pp. 363-409.

[201]
Peric, M., Kressler, R., and Scheuerer, G. 1988.“Comparison of finite-volume numerical methods with staggered and colocated grids”, Computers & Fluids, 16(4), pp. 389-403.

[202]
Phan-Thien, N., Fan, X.-J., Tanner, R.I., Zheng, R. 2002."Folgar–Tucker constant for a fibre suspension in a Newtonian fluid", J. of Non-Newtonian Fluid Mechanics, 103(2-3), pp. 251-260.

[203]
Phan-Thien, N., Graham, A.L.1991."A new constitutive model for fibre suspensions: flow past a sphere", Rheologica Acta, 30(1), pp.44-57.

[204]
“Boundary Conditions for Direct Simulations of Compressible Viscous Flows”,作者 Poinsot, T. J. 和 Lele, S.K.,于 1992 年刊登在J. Comp. Physics 第 101 期的 104-129 页。

[205]
Poling, B. E., Prausnitz, J. M., and O'Connell, J. P., “The Properties of Gases & Liquids”, 5th Ed., McGraw-Hill, 2001.

[206]
Rajagopalan, D., Armstrong, R.C., Brown, R.A.1990."Finite element methods for calculation of steady viscoelastic flow using constitutive equations with a Newtonian viscosity", J. Non-Newtonian Fluid Mech., 36, pp 159-192.

[207]
Reid, R. C., Prausnitz, J. M., and Poling, B. E. 1987.“The Properties of Gases & Liquids”, 4th Ed., McGraw-Hill.

[208]
Saxer, A.P.1992.“A numerical analysis of three-dimensional inviscid rotor/stator interactions using non-reflecting boundary conditions”, Ph.D.Thesis.MIT Dept. of Aero. and Astro.

[209]
Shaqfeh, E.S.G., Fredrickson, G.H.1990."The hydrodynamic stress in a suspension of rods", Physics of Fluids A: Fluid Dynamics, 2, 7.

[210]
Soave, G. 1972.“Equilibrium Constants from a Modified Redlich–Kwong Equation of State”, Chem.Eng. Sci., 27, pp. 1197-1203.

[211]
Steinhoff, J., Lynn, N. and Wang, L. 2005.“Computation of High Reynolds Number Flows Using Vorticity Confinement: I. Formulation”, UTSI Preprint.

[212]
Tezduyar, T.E., Osawa, Y. 2000."Finite element stabilization parameters computed from element matrices and vectors".Computer Methods in Applied Engineering, 190, 3-4, pp. 411-430.

[213]
Turkel, E. 1987.“Preconditioned methods for solving the incompressible and low speed compressible equations”, Journal of Computational Physics, 72, pp. 277-298.

[214]
Varchanis, S., Syrakos, A., Dimakopoulos, Y., Tsampoulos, J. 2019."A new finite element formulation for viscoelastic flows: Circumventing simultaneously the LBB condition and the high-Weissenberg number problem", J. Non-Newtonian Fluid Mechanics, 267, pp 78-97.

[215]
Verbeeten, W.M.H., Peters, G.W.M., and Baaijens, F.P.T.2002."Viscoelastic analysis of complex polymer melt flows using the eXtended Pom-Pom model", J. Non-Newtonian Fluid Mech., 108, pp. 301-326.

[216]
Weiss, J.M., Maruszewski, J.P., and Smith, W.A.1999.“Implicit solution of preconditioned Navier-Stokes equations using algebraic multigrid”, AIAA Journal, 37(1), pp. 29-36.

[217]
Weiss, J.M., and Smith, W.A.1995.“Preconditioning applied to variable and constant density flows”, AIAA Journal, 33(11), pp. 2050-2057.

[218]
Yang, Z. et al.2000.“Recent Improvements to a Hybrid Method for Rotors in Forward Flight”, AIAA Conference Reno.

[219]
Yasuda, K. 1979.Investigation of the analogies between viscometric and linear viscoelastic properties of polystyrene fluids.PhD Thesis, Dept. of Chemical Engineering, Massachusetts Institute of Technology.