First and second laws of the thermodynamics

1. Bird BR, Stewart WE, Lightfoot E N (1960) Transport Phenomena, John Wiley & Sons, New York, Chichester, Brisbane, Toronto, Singapore

   Google Scholar 

2. Bohl WR et al (1988) Multiphase flow in the advanced fluid dynamics model, ANS Proc. 1988 Nat. Heat Transfer Conf., HTC-vol 3 July 24–27, Houston, Texas, pp 61–70

   Google Scholar 

3. Fick A (1855) Über Diffusion. Ann. der Physik, vol 94 p 59

   Google Scholar 

4. Grigorieva VA, Zorina VM, eds. (1988) Handbook of thermal engineering, thermal engineering experiment, in Russian, 2d Edition, Moskva, Atomisdat, vol 2

   Google Scholar 

5. Hammond GP (Nov. 1985) Turbulent Prandtl number within a near-wall flow, AIAA Journal, vol 23 no 11 pp 1668–1669

   Google Scholar 

6. Kelly JM, Kohrt R J (1983) COBRA-TF: Flow blockage heat transfer program. Proc. Eleventh Water Reactor Safety Research Information Meeting (Oct. 24–28 1983) Gaithersbury — Maryland, NUREG/CP-0048, vol 1 pp 209–232

   Google Scholar 

7. Kolev NI (March 1985) Transiente Drephasen Dreikomponenten Stroemung, Teil 1: Formulierung des Differentialgleichungssystems, KfK 3910

   Google Scholar 

8. Kolev NI (1986) Transient three-dimensional three-phase three-component nonequilibrium flow in porous bodies described by three-velocity fields, Kernenergie, vol 29 no 10 pp 383–392

   Google Scholar 

9. Kolev NI (1986) Transiente Dreiphasen Dreikomponenten Stroemung, Part 3: 3D-Dreifluid-Diffusionsmodell, KfK 4080

   Google Scholar 

10. Kolev NI (August 1987) A Three Field-Diffusion Model of Three-Phase, Three-Component Flow for the Transient 3D-Computer Code IVA2/01, Nuclear Technology, vol 78 pp 95–131

    Google Scholar 

11. Kolev NI (Sept. 1991) A three-field model of transient 3D multi-phase, three-component flow for the computer code IVA3, Part 1: Theoretical basics: Conservation and state equations, numerics. KfK 4948 Kernforschungszentrum Karlsruhe

    Google Scholar 

12. Kolev NI (1991) IVA3: A transient 3D three-phase, three-component flow analyzer, Proc. of the Int. Top. Meeting on Safety of Thermal Reactors, Portland, Oregon, July 21–25, 1991, pp 171–180. The same paper was presented at the 7th Meeting of the IAHR Working Group on Advanced Nuclear Reactor Thermal-Hydraulics, Kemfor-schungszentrum Karlsruhe, August 27 to 29, 1991

    Google Scholar 

13. Kolev NI (1993) Berechnung der Fluiddynamischen Vorgänge bei einem Sperrwasser-kühlerrohrbruch, Projekt KKW Emsland, Siemens KWU Report R232/93/0002

    Google Scholar 

14. Kolev NI (1993) IVA3-NW A three phase flow network analyzer. Input description, Siemens KWU Report R232/93/E0041

    Google Scholar 

15. Kolev NI (1993) IVA3-NW components: Relief valves, pumps, heat structures, Siemens KWU Report R232/93/E0050.

    Google Scholar 

16. Kolev NI (1993) The code IVA3 for modelling of transient three-phase flows in complicated 3D geometry, Kerntechnik, vol 58 no 3 pp 147–156

    Google Scholar 

17. Kolev NI (1993) IVA3 NW: Computer code for modelling of transient three phase flow in complicated 3D geometry connected with industrial networks, Proc. of the Sixth Int. Top. Meeting on Nuclear Reactor Thermal Hydraulics, Oct. 5–8, 1993, Grenoble, France

    Google Scholar 

18. Kolev NI (1994) IVA4: Modelling of mass conservation in multi-phase multi-component flows in heterogeneous porous media, Siemens KWU Report NA-M/94/E029, July 5, 1994 also in Kerntechnik, vol 59 no 4–5 pp 226–237

    Google Scholar 

19. Kolev NI (1994) IVA4: Modelling of momentum conservation in multi-phase flows in heterogeneous porous media, Siemens KWU Report NA-M/94/E030, July 5, 1994, also in Kerntechnik, vol 59 no 6 pp 249–258

    Google Scholar 

20. Kolev NI (1994) The influence of the mutual bubble interaction on the bubble departure diameter, Experimental Thermal and Fluid Science, vol 8 pp 167–174

    Article  Google Scholar 

21. Kolev NI (1996) Three fluid modeling with dynamic fragmentation and coalescence fiction or daily practice? 7th FARO Experts Group Meeting Ispra, October 15–16

    Google Scholar 

22. Kolev NI (1991) Derivatives for the equation of state of multi-component mixtures for universal multi-component flow models, Nuclear Science and Engineering: vol 108 pp 74–87

    Google Scholar 

23. Kolev NI (1995), The code IVA4: Second law of thermodynamics for multi-phase multi-component flows in heterogeneous media, Kerntechnik, vol 60 no 1, pp 1–39

    Google Scholar 

24. Kolev NI (1997) Comments on the entropy concept, Kerntechnik, vol 62 no 1 pp 67–70

    Google Scholar 

25. Kolev NI (1997) Three fluid modeling with dynamic fragmentation and coalescence fiction or daily practice? Proceedings of OECD/CSNI Workshop on Transient thermal-hydraulic and neutronic codes requirenments, Annapoliss, Md, U.S.A., 5th–8th November 1996; 4th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, ExHFT 4, Brussels, June 2–6, 1997; ASME Fluids Engineering Conference & Exhibition, The Hyatt Regency Vancouver, Vancouver, British Columbia, CANADA June 22–26, 1997, Invited Paper; Proceedings of 1997 International Seminar on Vapor Explosions and Explosive Eruptions (AMIGO-IMI), May 22–24, Aoba Kinen Kaikan of Tohoku University, Sendai-City, Japan

    Google Scholar 

26. Kolev NI (1998) On the variety of notation of the energy conservation principle for single phase flow, Kerntechnik, vol 63 no 3 pp 145–156

    Google Scholar 

27. Kolev NI (1999) Verification of IVA5 computer code for melt-water interaction analysis, Part 1: Single phase flow, Part 2: Two-phase flow, three-phase flow with cold and hot solid spheres, Part 3: Three-phase flow with dynamic fragmentation and coalescence, Part 4: Three-phase flow with dynamic fragmentation and coalescence — alumna experiments, CD Proceedings of the Ninth International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-9), San Francisco, California, October 3–8, 1999, Log. Nr. 315.

    Google Scholar 

28. Liles DR et al (June 1978) TRAC-P1: An advanced best estimate computer program for PWR LOCA analysis. I. Methods, Models, User Information and Programming Details, NUREG/CR-0063, LA-7279-MS vol 1

    Google Scholar 

29. Liles DR et al (April 1981) TRAC-FD2 An advanced best-estimate computer program for pressurized water ractor loss-of-coolant accident analysis. NUREG/CR-2054, LA-8709 MS

    Google Scholar 

30. Reid RC, Prausnitz JM, Sherwood TK (1982) The Properties of Gases and Liquids, Third Edition, McGraw-Hill Book Company, New York

    Google Scholar 

31. Sha T, Chao BT, Soo SL (1984) Porous media formulation for multi phase flow with heat transfer, Nuclear Engineering and Design, vol 82 pp 93–106

    Article  Google Scholar 

32. Taylor GI (1935) Proc. Roy. Soc. A, vol 151 p 429

    Google Scholar 

33. Thurgood MJ et al (1983) COBRA/TRAC — A thermal hydraulic code for transient analysis of nuclear reactor vessels and primary coolant systems. NUREG/CR-346, vol 1–5

    Google Scholar 

34. Zierep J (1983) Einige moderne Aspekte der Stroemungsmechanik, Zeitschrift fuer Flugwissenschaften und Weltraumforschung, vol 7 no 6 pp 357–361

    Google Scholar 

35. Solbrig CW, Hocever CH and Huges ED (14–17 August 1977) A model for a heterogeneous two-phase unequal temperature fluid, 17^th National heat transfer conference, Salt Lake Sity, Utah, pp 139–151

    Google Scholar 

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