PoreSim (доступны иллюстрации)

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PoreSim (доступны иллюстрации)

bne: PoreSim (доступны иллюстрации) Публикации и программа по логину Relationship between packing structure and porosity in fixed beds of equilateral cylindrical particles Download W. Zhang, K.E. Thompson, A.H. Reed, and L. Beenken Chemical Engineering Science 61 8060-8074 2006. Computing particle surface areas and contact areas from three-dimensional tomography data of particulate materials Download K.E. Thompson (in review). Coupling pore-scale networks to continuum-scale models of porous media Download M.T. Balhoff, K.E. Thompson, and M.A. Hjortso (in press). A numerical study of the coalescence of emulsion droplets in a constricted tube Download L. Yan, K.E. Thompson, and K.T. Valsaraj, J. Colloid Interface Sci. 298 832-844 (2006). Quantitative computer reconstruction of particulate materials from microtomography images Download K.E. Thompson, C.S. Willson, and W. Zhang, Powder Technology 163 169-182 (2006). A macroscopic model for shear-thinning flow in packed beds based on network modeling Download M.T. Balhoff and K.E. Thompson, Chemical Engineering Science, 61, 698-719 (2006). Porous media Download K.E. Thompson, Encyclopedia of Chemical Technology, Ed. S. Lee, Taylor and Francis, 4, 2391-2405 (2005). Simulation of random packing limits for rigid cylinders using collective rearrangement Download W. Zhang, K.E. Thompson, and B.S. Mitchell, unpublished (2005). Application of a new grain-based reconstruction algorithm to microtomography images for quantitative characterization and flow modeling Download K.E. Thompson, C.S. Willson, C.D. White, S. Nyman, J. Bhattacharya, and A.H. Reed, paper SPE 95887 presented at the Annual Technical Conference and Exhibition, Dallas, TX, 9-12 Oct. (2005). Quantification of sediment properties and geoacoustic parameters from pore structure and grain contacts: A microcomputed tomography analyisis of SAX04 sands Download Reed, A.H., K.E. Thompson, C.S. Willson, K.B. Briggs, M.D. Richardson, and B.T. Heffner, Proceedings of the Conference on Boundary Influences in High-Frequency, Shallow Water Acoustics, University of Bath, Sept. 5-9 (2005). Modeling polymer displacement in hydraulic fractures at the pore-scale Download M. Balhoff and K.E. Thompson, paper SPE 90197 presented at the Annual Technical Conference and Exhibition, Houston, TX, 26-29 September (2004). Investigating the correlation between residual nonwetting-phase liquids and pore-scale geometry and topology using synchrotron x-ray tomography Download C.S. Willson, R.A. Stacey, K. Ham, and K.E. Thompson, Proceedings of the 49th International Symposium on Optical Science and Technology: Aug. 2-6, (2004). Modeling the steady flow of yield-stress fluids in packed beds Download M. Balhoff and K.E. Thompson, AIChE J., 50 (12), 3034-3048 (2004). Comparison of network generation techniques for unconsolidated porous media Download R. Al-Raoush, K.E. Thompson, and C.S. Willson, Soil Sci. Soc. Am. J. 67, 1687-1700 (2003). Numerical analysis of the effects of local hydrodynamics on mass transfer in heterogeneous porous media Download G. Guo, G. Liu, and K.E. Thompson, Chem. Eng. Comm., 190 (12), 1641-1660 (2003). In-situ control of DNAPL density using polyaphrons Download L. Yan, K.E. Thompson, K.T. Valsaraj, and D.D. Reible, Environ. Sci. Tech., 37 (19), 4487-4493 (2003). Numerical modeling of reactive polymer flow in porous media Download H. Liu and K.E. Thompson, Computers and Chemical Engineering, 26, 1595-1610 (2002). Fast and robust Delaunay tessellation in 3D periodic domains Download K.E. Thompson, Int. J. Numer. Meths. Eng., 55, 1345-1366 (2002). Pore-scale modeling of fluid transport in disordered fibrous materials Download K.E. Thompson, AIChE J., 48 (7), 1369-1389 (2002). A domain decomposition method for modeling stokes flow in porous materials Download G. Liu, and K.E. Thompson, International Journal for Numerical Methods in Fluids, 38 (11), 1009-1025 (2002). Theory, modeling and experiment in reactive transport in porous media Download S.L. Bryant and K.E. Thompson, Current Opinion in Colloid and Interface Science, 6 (3), 217 (2001). Experimental analysis of local mass transfer in packed beds Download G. Guo, and K.E. Thompson, Chem. Eng. Sci. 56, 121 (2001). Influence of computational domain boundaries on internal structure in low-porosity sphere packings Download G. Liu and K.E. Thompson, Powder Tech., 113, 185 (2000). Selective conformance control in heterogeneous reservoirs using unstable, reactive displacements Download K.E. Thompson, and O. Kwon, SPE Journal, 4 (2), 156 (1999). A pore-scale model for fluid injection and in-situ gelation in porous media Download K.E. Thompson, and H.S. Fogler, Phys. Rev E., 57 (5B), 5825 (1998). Pore-level mechanisms for altering multiphase permeability with gels Download K.E. Thompson, and H.S. Fogler, SPE Journal, 2 (3), 350 (1997). Modeling flow in disordered packed beds from pore-scale fluid mechanics Download K.E. Thompson, and H.S. Fogler, AIChE J., 43 (6), 1377 (1997). http://www.psrc.lsu.edu/

Ответов - 3

bne: F. Holland, "Fluid Flow for Chemical and Process Engineers" Butterworth-Heinemann | April 16, 1995 | ISBN: 0340610581 | 384 pages 12 MB This major new edition of a popular undergraduate text covers topics of interest to chemical engineers taking courses on fluid flow. These topics include non-Newtonian flow, gas-liquid two-phase flow, pumping and mixing. It expands on the explanations of principles given in the first edition and is more self-contained. Two strong features of the first edition were the extensive derivation of equations and worked examples to illustrate calculation procedures. These have been retained. A new extended introductory chapter has been provided to give the student a thorough basis to understand the methods covered in subsequent chapters. Contents List of examples Preface to the second edition Nomenclature Fluids in motion Units and dimensions Description of fluids and fluid flow Types of flow Conservation of mass Energy relationships and the Bernoulli equation Momentum of a flowing fluid Stress in fluids Sign conventions for stress Stress components Volumetric flow rate and average velocity in a pipe Momentum transfer in laminar flow Non-Newtonian behaviour Turbulence and boundary layers Flow of incompressible Newtonian fluids in pipes and channels Reynolds number and flow patterns in pipes and tubes Shear stress in a pipe Friction factor and pressure drop Pressure drop in fittings and curved pipes Equivalent diameter for non-circular pipes Velocity profile for laminar Newtonian flow in a pipe Kinetic energy in laminar flow Velocity distribution for turbulent flow in a pipe Universal velocity distribution for turbulent flow in a pipe Flow in open channels Flow of incompressible non-Newtonian fluids in pipes Elementary viscometry Rabinowitsch-Mooney equation Calculation of flow rate-pressure drop relationship for laminar flow using 7-j data Wall shear stress-flow characteristic curves and scale-up for laminar flow Generalized Reynolds number for flow in pipes Turbulent flow of inelastic non-Newtonian fluids in pipes Power law fluids Pressure drop for Bingham plastics in laminar flow Laminar flow of concentrated suspensions and apparent slip at the pipe wall Viscoelasticity Pumping of liquids Pumps and pumping System heads Centrifugal pumps Centrifugal pump relations Centrifugal pumps in series and in parallel Positive displacement pumps Pumping efficiencies Factors in pump selection Mixing of liquids in tanks Mixers and mixing Small blade high speed agitators Large blade low speed agitators Dimensionless groups for mixing Power curves Scale-up of liquid mixing systems The purging of stirred tank systems Flow of compressible fluids in conduits Energy relationships Equations of state Isothermal flow of an ideal gas in a horizontal pipe Non-isothermal flow of an ideal gas in a horizontal pipe Adiabatic flow of an ideal gas in a horizontal pipe Speed of sound in a fluid Maximum flow rate in a pipe of constant cross-sectional area Adiabatic stagnation temperature for an ideal gas Gas compression and compressors Compressible flow through nozzles and constrictions Gas-liquid two-phase flow Flow patterns and flow regime maps Momentum equation for two-phase flow Flow in bubble columns Slug flow in vertical tubes The homogeneous model for two-phase flow Two-phase multiplier Separated flow models Flow measurement Flowmeters and flow measurement Head flowmeters in closed conduits Head flowmeters in open conduits Mechanical and electromagnetic flowmeters Scale errors in flow measurement Fluid motion in the presence of solid particles Relative motion between a fluid and a single particle Relative motion between a fluid and a concentration of particles Fluid flow through packed beds Fluidization Slurry transport Filtration Introduction to unsteady flow Quasi-steady flow Incremental calculation: time to discharge an ideal gas from a tank Time for a solid spherical particle to reach 99 per cent of its terminal velocity when falling from rest in the Stokes regime Suddenly accelerated plate in a Newtonian fluid Pressure surge in pipelines Appendix 1 The Navier-Stokes equations Appendix 2 Further problems Answers to problems Conversion factors Friction factor charts Index http://rapidshare.com/files/182623934/FluiFlow4ChemEngin2Ed1995.rar

bne: L. A. Galin, G.M.L. Gladwell, "Contact Problems: The legacy of L.A. Galin" Springer | ISBN: 1402090420 | November 17, 2008 | 318 pages | 3.6MB L.A. Galin’s book on contact problems is a remarkable work. Actually there are two books: the first, published in 1953 deals with contact problems in the classical theory of elasticity; this is the one that was translated into English in 1961. The second book, published in 1980, included the first, and then had new sections on contact problems for viscoelastic materials, and rough contact problems; this section has not previously been translated into English. In this new translation, the original text and the mathematical analysis have been completely revised, new material has been added, and the material appearing in the 1980 Russian translation has been completely rewritten. In addition there are three essays by students of Galin, bringing the analysis up to date. http://depositfiles.com/ru/files/1yyf75ue7 На Западе любят ссылаться на Миндлина А мы с Марком Райманом смотрели в 1971 году именно Галина при моделировании оценке упругих свойств в задачи Герца

bne: RPHtools The Rock Physics Handbook, 2nd Edition http://srb.stanford.edu/books/RPHII/RPHtools/

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