Abstract
This Chapter contains some simple cases illustrating the use of the mass and the energy conservation for describing the thermodynamic state of multi-component single-phase systems. The results are useful themselves or for use as a benchmarks for testing the performance of computer codes.
Access provided by Autonomous University of Puebla. Download to read the full chapter text
Chapter PDF
Keywords
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Bartlmä, F.: Gasdynamik der Verbrennung. Springer, Heidelberg (1975)
Belles, F.E.: Detonability and chemical kinetics: Prediction of the limits of detonability of hydrogen. In: Seventh Symposium (international) on Combustion, At London and Oxford, pp. 745–751 (1958)
Bertelot, M., Vieille, P.: Compt. Rend. Acad. Sci. Paris 93, 18 (1881)
Bröckerhoff, P., Kugeler, K., Reinecke, A.-E., Tragsdorf, I.M.: Untersuchungen zur weiteren Verbesserung der Methoden zur sicherheitstechnischen Bewertung der katalytischen Rekombinatoren von Wasserstoff in Sicherheitsbehältern von Kernkraftwerken bei schweren Störfällen, Institut für Sicherheitsforschung und Reaktortechnik (IRS-2), Forschungszentrum Jülich (April 4, 2002)
Chapman, D.L.: Philos. Mag. 47(5), 90 (1899)
Chase, M.W. (ed.): NIST-JANAF Thermochemical Tables, 4th edn. Part I, II. American Institute of Physics and American Chemical Society, Woodbury (1998)
Cordfunke, E.H.P., Konings, R.J.M. (eds.): Thermochemical data for reactor materials and fusion products. Nord Holland, Amsterdam (1990)
Cox, R.A. (ed.): Kinetics and mechanisms of elementary chemical processes of importance in combustion: Research within the frame of the CEC non-nuclear energy R&D program; Final report of the period 1.4.1986 to 30.6.1989, Engineering Science Division, Harwell Laboratory, Didcot/UK (1989)
Crussard, L.: Bull. De la Soc. De l’industrie Minérale St.-Etienne 6 , 1–109 (1907)
de Saint Venant: Note ä joindre un mémoire sur la dynamique des fluides. Comptes Rendus 17, 1240–1244 (1843)
Dorsey, N.E.: Properties of ordinary water-substance, Reihold (November 1951); Second Printing (1940)
Gaydon, A., Wolfhard, H.: Flames, their structure, radiation, and temperature. Chapman and Hall, London (1979)
Golden, G.H., Tokar, J.V.: Thermophysical properties of sodium, ANL-7323, Argonne National Laboratory, Argonne, IL (August 1967)
Hame, W.: Aufbereitung der Stofffunktionen für Natrium; Einsatz in COMIX- Referenzversion KfK auf M7890 und Vektorrechner, PTF report delivered to KfK (Dezember 1986)
Ihara, S.: Approximation for the thermodynamic properties of high-temperature dissociated water vapor. Bulletin of the Electrotechnical Laboratory 41(4), 259–280 (1977)
Ihara, S.: Direct thermal decomposition of water. In: Ohta, T. (ed.) Solar-Hydrogen Energy Systems, ch. 4, pp. 58–79, Pergamon, Oxford (1979)
Isserlin, A.S.: Osnovy zzhiganija gazovogo topliva. Nedra, Leningrad (1987)
Jouguet, E.: J. Mathématique, 347 (1905); 6 (1906); Mécanique des Explosifs, Doin O, Paris (1917)
Kesselman, P.M., JuI, B., Mogilevskij: Thermodynamical properties of thermally dissociated water steam for temperatures 1600-6000K and pressures 0.1-1000bar. High Temperature Physics 6(4) (1968) (in Russian)
Kolarov, N.C.: Inorganic Chemistry, Sofia, Technika (1970) (in Bulgarian)
Kuo, K.K.: Principles of Combustion. Wiley-Intersience Publication, Chichester (1986)
Laffitte, P.F.: Flames of high-speed detonation, Science of Petrolium, pp. 2995–3003. Oxford University Press, London (1938)
Landau, L.D., Lifshitz, E.M.: Course of theoretical physics. In: Fluid Mechanic, 2nd edn., vol. 6, Pergamon, Oxford (1987)
Lewis, B., Friauf, J.B.: Explosives in detonating gas mixtures. 1. Calculation of rates of explosions in mixtures of hydrogen and oxigen and the influence of rare gases. J. Amer. Chem. Soc. LII, 3905–3929 (1930)
Lewis, B., von Elbe, G.: Combustion, flames and explosion of gases. Academic Press, Harcourt Brace Jovanovich, Orlando (1987)
Maas, U., Wanatz, J.: Ignition process in hydrogen-oxygen mixtures. Comb. Flame 74, 53–69 (1988)
Mallard, E., Le Chatelier, H.L.: Compt. Rend. Acad. Sci. Paris 93, 145 (1881)
Moser, V.: Simulation der Explosion magerer Wasserstoff-Luft-Gemische in großskaligen Geometrien, PhD, Achener Beiträge zum Kraftahr- und Maschinenwesen, Band 11 (February 6, 1997)
Oswatitsch, K.: Gasdynamik. Springer, Vienna (1952)
Robert, J.K., Rupley, Miller, J.A.: The CHEMKIN thermodynamic data base, SAND-87-8215, DE87 009358 (April 1987)
Schmidt, E.: Thermodynamik. Aufl., vol. 3, p. 272. Springer, Vienna (1945)
Stone, J.P., Ewing, C.T., Spann, J.R., Steinkuller, E.W., Williams, D.D., Miller, R.R.: High-Temperature Properties of Sodium, NRL-6241. Naval Research Laboratory, Washington, DC (September 1965)
Tangren, R.F., Dodge, C.H., Seifert, H.S.: Compressibility effects in two-phase flow. Journal of Applied Physics 20, 736 (1949)
Taylor, G.I.: Proc. Roy. Soc. London Ser. A, 51, 429 (1935)
Vargaftik, N.B.: Handbook of physical properties of liquids and gases: pure substances and mixtures. The English Translation of the Second Edition. Hemisphere Publishing Corporation (1983)
Vasic, A.Z.: High temperature properties and heat transfer phenomena for steam at temperatures up to 5000K, MS Thesis, Ottawa-Carleton Institute for Mechanical and Aeronautical Engineering, Ottawa, Ontario (1993)
Wendlandt, R.: Z. für phys. Chemie 110, 637 (1924)
Zeldovich, J.B.: To the theory of detonation propagation in gas systems. Journal of Experimental and Theoretical Physics 10(5), 542–568 (1940)
Zwerev, I.N., Smirnov, N.N.: Gasodinamika gorenija, Izdatelstvo Moskovskogo universiteta (1987)
Rights and permissions
Copyright information
© 2011 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Kolev, N.I. (2011). Some simple applications of mass and energy conservation. In: Multiphase Flow Dynamics 1. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-20605-4_6
Download citation
DOI: https://doi.org/10.1007/978-3-642-20605-4_6
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-20604-7
Online ISBN: 978-3-642-20605-4
eBook Packages: EngineeringEngineering (R0)