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Books on the topic 'Equilibrium pressure'

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Published: 30 May 2022
Last updated: 31 May 2022

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1

Ōe, Shūzō. Vapor-liquid equilibrium data at high pressure. Tokyo: Kodansha, 1990.

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2

Chemical equilibria in solution: Dependence of rate and equilibrium constants on temperature and pressure. New York: Ellis Horwood/PTR Prentice Hall, 1992.

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3

Zoller, Paul. Standard pressure-volume-temperature data for polymers. Lancaster, PA: Technomic Pub. Co., 1995.

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4

High pressure phase behaviour of multicomponent fluid mixtures. Amsterdam: Elsevier, 1992.

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5

America, Mineralogical Society of, ed. Metamorphic phase equilibria and pressure-temperature-time paths. 2nd ed. Washington, D.C: Mineralogical Society of America, 1995.

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6

G, Ponyatovsky E., ed. Phase transformations of elements under high pressure. Boca Raton, Fla: CRC Press, 2005.

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7

McCarty, Robert D. The thermodynamic properties of nitrogen tetroxide. [Washington, D.C.]: U.S. Dept. of Commerce, National Bureau of Standards, 1986.

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8

McCarty, Robert D. The thermodynamic properties of nitrogen tetroxide. [Washington, D.C.]: U.S. Dept. of Commerce, National Bureau of Standards, 1986.

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9

J, Oonk H. A., and SpringerLink (Online service), eds. Equilibrium Between Phases of Matter: Supplemental Text for Materials Science and High-Pressure Geophysics. Dordrecht: Springer Netherlands, 2012.

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10

A, Bassett William, ed. Elements, oxides, and silicates: High-pressure phases with implications for the earth's interior. New York: Oxford University Press, 1986.

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11

Aseev, G. G. Electrolytes, equilibria in solutions and phase equilibria: Calculation of multicomponent systems and experimental data on the activities of water, vapor pressures, and osmotic coefficients. New York: Begell House, 1998.

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12

Ye gu gao ya cheng xing ji shu yu ying yong: Technology and Application of Liquid Solid Forming Under High Pressure. Beijing Shi: Guo fang gong ye chu ban she, 2013.

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13

Saxena, Surendra K. Thermodynamic Data on Oxides and Silicates: An Assessed Data Set Based on Thermochemistry and High Pressure Phase Equilibrium. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993.

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14

Ahmed, Tarek H. Working guide to vapor-liquid phase equilibria calculations. Amsterdam: Elsevier, 2010.

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15

Working guide to vapor-liquid phase equilibria calculations. Amsterdam: Elsevier, 2010.

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16

Ahmed, Tarek H. Working guide to vapor-liquid phase equilibria calculations. Amsterdam: Elsevier, 2010.

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17

Arce, Pedro F. Fluid phase behavior of systems involving high molecular weight compounds and supercritical fluids. Hauppauge, N.Y: Nova Science Publishers, 2009.

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18

Fulder, Stephen. The tao of medicine: Ginseng and other Chinese herbs for inner equilibrium and immune power. Rochester, Vt: Healing Arts Press, 1990.

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19

Magee, Stephen P. Black hole tariffs and endogenous policy theory: Political economy in general equilibrium. Cambridge: Cambridge University Press, 1989.

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20

Rafaquat, Mohammed. Phase equilibrium studies at normal pressures. Birmingham: Aston University. Department of Chemical Engineering and Applied Chemistry, 1991.

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21

Zain, Husni Khamis. Phase equilibrium studies at moderate pressures. Birmingham: Aston University. Department of Chemical Engineering and Applied Chemistry, 1992.

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22

Helpman, Elhanan. Lobbying and legislative bargaining. Cambridge, MA: National Bureau of Economic Research, 1998.

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23

Gmehling, Jürgen. Vapor-liquid equilibrium data collection: Tables and diagrams of data for binary and multicomponent mixtures up to moderate pressures. Constants of correlation equations for computer use. Frankfurt am Main: DECHEMA, 1991.

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24

Vapour-liquid equilibrium data of binary polymer solutions: Vapour pressures, Henry-constants, and segment-molar excess Gibbs free energies. Amsterdam: Elsevier, 1994.

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25

Gallagher, Richard Thomas. Kinetics and equilibria of ion-molecule association reactions: Studied using temperature variable high pressure ion sources. [s.l.]: typescript, 1987.

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26

Vali︠a︡shko, V. M. Hydrothermal properties of materials: Experimental data on aqueous phase equilibria and solution properties at elevated temperatures and pressures. Hoboken, N.J: Wiley, 2008.

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27

H, Becker Kurt, ed. Non-equilibrium air plasmas at atmospheric pressure. Bristol: Institute of Physics, 2005.

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28

Studies on High Pressure Non-Equilibrium Plasmas. Gandhinagar, India: Institute for Plasma Research, India, 2000.

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29

Deiters, Ulrich K., and Thomas Kraska. High-Pressure Fluid Phase Equilibria: Phenomenology and Computation. Elsevier Science & Technology Books, 2012.

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30

Saha, Prasenjit, and Paul A. Taylor. Gravity versus Pressure. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198816461.003.0005.

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Formally, the title of this chapter is a statement of the equation of hydrostatic equilibrium. A large number of stellar objects exist in the balance between gravity and pressure, with the large ‘zoo’ of observed types being due to the various physical phenomena providing the latter. This chapter is devoted to various applications of that equilibrium. Some cases can be solved exactly, such as spheres of solid rock or ice; some cases can only be solved in detail numerically, notably degenerate white dwarfs up to the Chandrasekhar mass limit. For other cases, analytical approximations such as a version of the virial theorem are helpful in understanding underlying structure and behaviour.
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31

1925-, Akimoto Shun'ichi, Manghnani M. H, and Syono Yasuhiko 1935-, eds. High pressure research in mineral physics. Tokyo: Terra Scientific Pub. Co., 1987.

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32

Saxena, Surendra K., N. Chatterjee, Y. Fei, and G. Shen. Assessed Data Set Based on Thermochemistry and High Pressure Phase Equilibrium. Springer-Verlag Berlin and Heidelberg GmbH & Co. K, 1993.

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33

Ohe, Shuzo. Vapor Liquid Equilibrium Data at High Pressure (Physical Sciences Data, 42). Elsevier Science Publishing Company, 1990.

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34

1949-, Cunningham John R., and Jones Dennis K, eds. Experimental results for phase equilibria and pure component properties. New York, N.Y: American Institute of Chemical Engineers, 1991.

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35

1949-, Cunningham John R., and Jones Dennis K, eds. Experimental results for DIPPR 1990-91 projects on phase equilibria and pure components properties. New York, N.Y: American Institute of Chemical Engineers, 1994.

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36

Non-Equilibrium Air Plasmas at Atmospheric Pressure (Series in Plasma Physics) (Plasma Physics). Taylor & Francis, 2004.

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37

Tonkov, E. Yu, and E. G. Ponyatovsky. Phase Transformations of Elements Under High Pressure (Advances in Metallic Alloys). CRC, 2004.

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38

Oonk, H. A. J., and M. H. G. Jacobs. Equilibrium Between Phases of Matter: Supplemental Text for Materials Science and High-Pressure Geophysics. Springer, 2012.

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39

Oonk, H. A. J., and M. H. G. Jacobs. Equilibrium Between Phases of Matter: Supplemental Text for Materials Science and High-Pressure Geophysics. Springer, 2014.

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40

Whittle, Ian. Raised intracranial pressure, cerebral oedema, and hydrocephalus. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780198569381.003.0604.

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The brain is protected by the cranial skeleton. Within the intracranial compartment are also cerebrospinal fluid, CSF, and the blood contained within the brain vessels. These intracranial components are in dynamic equilibrium due to the pulsations of the heart and the respiratory regulated return of venous blood from the brain. Normally the mean arterial blood pressure, systemic venous pressure, and brain volume are regulated to maintain physiological values for intracranial pressure, ICP. There are a range of very common disorders such as stroke, and much less common, such as idiopathic intracranial hypertension, that are associated with major disturbances of intracranial pressure dynamics. In some of these the contribution to pathophysiology is relatively minor whereas in others it may be substantial and be a major contributory factor to morbidity or even death.Intracranial pressure can be disordered because of brain oedema, disturbances in CSF flow, mass lesions, and vascular engorgement of the brain. Each of these may have variable causes and there may be interactions between mechanisms. In this chapter the normal regulation of intracranial pressure is outlined and some common disease states in clinical neurological practice that are characterized by either primary or secondary problems in intracranial pressure dynamics described.
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41

1936-, Saxena Surendra K., ed. Thermodynamic data on oxides and silicates: An assessed data set based onthermochemistry and high pressure phase equilibrium. Berlin: Springer-Verlag, 1993.

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42

1936-, Saxena Surendra Kumar, ed. Thermodynamic data on oxides and silicates: An assessed data set based on thermochemistry and high pressure phase equilibrium. Berlin: Springer-Verlag, 1993.

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43

Saxena, Surendra K., Nilanjan Chatterjee, Yingwei Fei, and Guoyin Shen. Thermodynamic Data on Oxides and Silicates: An Assessed Data Set Based on Thermochemistry and High Pressure Phrase Equilibrium. Springer, 1993.

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44

Phase relations, high-pressure terranes, P-T-ometry, and plate pushing: A tribute to W.G. Ernst. Columbia, MD: Bellwether Pub. for the Geological Society of America, 2005.

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45

(Editor), J. G. Liou, and Mark Cloos (Editor), eds. Phase Relations, High Pressure Terranes, P-T-Ometry, and Plate Pushing: A Tribute to W. G. Ernst (International Book Series). Geological Society of Amer, 2006.

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46

Equations of State And Pvt Analysis. Gulf Publishing Company, 2007.

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47

Equations of State and PVT Analysis: Applications for Improved Reservoir Modeling. Elsevier Science & Technology Books, 2016.

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48

Sherwood, Dennis, and Paul Dalby. Phase equilibria. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198782957.003.0015.

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This chapter extends the discussion of gas phase equilibria to phase equilibria. The central concept is the vapour pressure, and the key proof is that the criterion for phase equilibrium is the equality of the molar Gibbs free energies, or chemical potentials, of each phase. This then leads to the Clapeyron and Clausius-Clapeyron equations. A notable feature of this chapter is the discussion of non-ideal gases, answering the question “Given that, by definition, an ideal gas can never liquefy, what is it about a real gas that enables the gas to change phase into a liquid?”. A unique feature of this discussion is the rigorous analysis of the Gibbs free energy of a van der Waals gas under compression, and the proof of the ‘Maxwell construction’.
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49

High-Pressure Fluid Phase Equilibria. Elsevier, 2012. http://dx.doi.org/10.1016/c2011-0-04256-4.

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50

North, Jill. Time in Thermodynamics. Edited by Craig Callender. Oxford University Press, 2011. http://dx.doi.org/10.1093/oxfordhb/9780199298204.003.0011.

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It is often claimed, or hoped, that some temporal asymmetries are explained by the thermodynamic asymmetry in time. Thermodynamics, the macroscopic physics of pressure, temperature, volume, and so on, describes many temporally asymmetric processes. Heat flows spontaneously from hot objects to cold objects (in closed systems), never the reverse. More generally, systems spontaneously move from non-equilibrium states to equilibrium states, never the reverse. Delving into the foundations of statistical mechanics, this chapter reviews the many open questions in that field as they relate to temporal asymmetry. Taking a stand on many of them, it tackles questions about the nature of probabilities, the role of boundary conditions, and even the nature and scope of statistical mechanics.
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