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Books on the topic 'Inhomogeneous fluids'

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Published: 4 June 2021
Last updated: 2 February 2022

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1

Transport theory of inhomogeneous fluids. Singapore: World Scientific, 1994.

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2

Caviglia, Giacomo. Inhomogeneous waves in solids and fluids. Singapore: World Scientific, 1992.

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3

Koh, K. W. An analysis of inhomogeneously filled rectangular wave fluids. Manchester: UMIST, 1993.

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4

Collective modes in inhomogeneous plasma: Kinetic and advanced fluid theory. Bristol: Institute of Physics, 2000.

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5

IUTAM Symposium (2002 University of Texas at Austin). Micromechanics of fluid suspensions and solid composites: Papers of a theme issue. London: The Royal Society, 2003.

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6

Rheology of particulate dispersions and composites. Boca Raton, FL: CRC Press, 2007.

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7

Leszczyński, Jacek Sławomir. Dyskretny model dynamiki zderzeń ziaren w przepływach materiałów granulowanych. Częstochowa: Wydawnictwa Politechniki Częstochowskiej, 2005.

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8

IUTAM Symposium on Segregation in Granular Flows (1999 Cape May, N.J.). IUTAM Symposium on Segregation in Granular Flows: Proceedings of the IUTAM Symposium held in Cape May, NJ, U.S.A., June 5-10, 1999. Dordrecht: Kluwer Academic Publishers, 2000.

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9

Allen, Michael P., and Dominic J. Tildesley. Inhomogeneous fluids. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803195.003.0014.

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In this chapter, the special techniques needed to simulate and calculate properties for inhomogeneous systems are presented. The estimation of surface properties, such as the interfacial tension, may be accomplished by a variety of methods, including the calculation of the stress tensor profiles, the change in the potential energy on scaling the surface area at constant volume, the observation of equilibrium capillary wave fluctuations, or direct free energy measurement by cleaving. The structure within the interface is also of interest, and ways of quantifying this are described. Practical issues such as system size, preparation of a two-phase system, and equilibration time, are discussed. Special application areas, such as liquid drops, fluid membranes, and liquid crystals, are described.
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10

1934-, Henderson Douglas, ed. Fundamentals of inhomogeneous fluids. New York: M. Dekker, 1992.

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11

Inhomogeneous Waves in Solids and Fluids (Series in Theoretical and Applied Mechanics). World Scientific Pub Co Inc, 1992.

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12

Pal, Rajinder. Rheology of Particulate Dispersions and Composites (Surfactant Science). CRC, 2006.

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13

Weiland, J. Collective Modes in Inhomogeneous Plasmas: Kinetic and Advanced Fluid Theory (Series on Plasma Physics). Taylor & Francis, 1999.

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14

Allen, Michael P., and Dominic J. Tildesley. Nonequilibrium molecular dynamics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803195.003.0011.

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This chapter explains some of the fundamental issues associated with applying perturbations to a molecular dynamics simulation, along with practical details of methods for studying systems out of equilibrium. The main emphasis is on fluid flow and viscosity measurements. Spatially homogeneous perturbations are described to study shear and extensional flow. Non-equilibrium methods are applied to the study of heat flow and the calculation of the thermal conductivity. Issues of thermostatting, and the modelling of surface-fluid interactions for inhomogeneous systems, are discussed. The measurement of free energy changes through non-equilibrium work expressions such as those of Jarzynski and Crooks is also explained.
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15

Gatski, Thomas B., M. Yousuff Hussaini, and John L. Lumley, eds. Simulation and Modeling of Turbulent Flows. Oxford University Press, 1996. http://dx.doi.org/10.1093/oso/9780195106435.001.0001.

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This book provides students and researchers in fluid engineering with an up-to-date overview of turbulent flow research in the areas of simulation and modeling. A key element of the book is the systematic, rational development of turbulence closure models and related aspects of modern turbulent flow theory and prediction. Starting with a review of the spectral dynamics of homogenous and inhomogeneous turbulent flows, succeeding chapters deal with numerical simulation techniques, renormalization group methods and turbulent closure modeling. Each chapter is authored by recognized leaders in their respective fields, and each provides a thorough and cohesive treatment of the subject.
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16

IUTAM Symposium on Segregation in Granular Flows (Solid Mechanics and its Applications Volume 81) (Solid Mechanics and Its Applications). Springer, 2000.

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17

1945-, Drew Donald A., Joseph Daniel D, and Passman Stephen L, eds. Particulate flows: Processing and rheology. New York: Springer, 1998.

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18

(Editor), Donald A. Drew, Daniel D. Joseph (Editor), and Stephen L. Passman (Editor), eds. Particulate Flows: Processing and Rheology (The IMA Volumes in Mathematics and its Applications). Springer, 1997.

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19

Allen, Michael P., and Dominic J. Tildesley. Statistical mechanics. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198803195.003.0002.

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This chapter contains the essential statistical mechanics required to understand the inner workings of, and interpretation of results from, computer simulations. The microcanonical, canonical, isothermal–isobaric, semigrand and grand canonical ensembles are defined. Thermodynamic, structural, and dynamical properties of simple and complex liquids are related to appropriate functions of molecular positions and velocities. A number of important thermodynamic properties are defined in terms of fluctuations in these ensembles. The effect of the inclusion of hard constraints in the underlying potential model on the calculated properties is considered, and the addition of long-range and quantum corrections to classical simulations is presented. The extension of statistical mechanics to describe inhomogeneous systems such as the planar gas–liquid interface, fluid membranes, and liquid crystals, and its application in the simulation of these systems, are discussed.
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