Zeigarnik Yurii Al'bertovich

Publications in Math-Net.Ru

1. Study of heat transfer during boiling water on a modified surface obtained by microarc oxidation
   
   Pisma v Zhurnal Tekhnicheskoi Fiziki, 50:15 (2024),  34–36
2. Некоторые особенности кипения недогретого диэлектрического хладона $\rm R113$
   
   TVT, 62:5 (2024),  792–795
3. Atomization of superheated water through a divergent nozzle
   
   Prikl. Mekh. Tekh. Fiz., 64:3 (2023),  32–37
4. Vapor agglomerates and dry spots as precursors of the subcooled liquid boiling crisis in a channel
   
   TVT, 59:3 (2021),  373–383
5. Superheated water atomization: A possibility of obtaining sprays of droplets of micron diameters
   
   TVT, 56:1 (2018),  153–155
6. Characteristics of subcooled water boiling on structured surfaces
   
   TVT, 55:6 (2017),  712–719
7. The nature of “gas” burnout
   
   TVT, 53:6 (2015),  881–884
8. On the nature of bimodal drop distribution over sizes under superheated water atomization
   
   TVT, 53:2 (2015),  221–224
9. Atomization of Superheated Water: Practice of Investigation of Complicated Disperse Systems
   
   TVT, 52:3 (2014),  456–462
10. Estimation of the influence of temperature pulses on piezoelectric pressure gauge readings
    
    TVT, 51:5 (2013),  764–768
11. Determination of the characteristic linear dimension for calculating the thermohydraulic parameters of a porous structure
    
    TVT, 51:1 (2013),  144–147
12. Behavior of air bubbles during subcooled water boiling
    
    TVT, 50:3 (2012),  436–441
13. The nature of microbubble emission under subcooled water boiling
    
    TVT, 50:1 (2012),  83–88
14. Visualization of Boiling of Subcooled Water
    
    TVT, 49:4 (2011),  584–588
15. Generalization of experimental data on internal heat transfer in porous structures
    
    TVT, 48:3 (2010),  402–408
16. An experimental investigation of the characteristics of explosive boiling of subcooled water on a hot surface under conditions of change of boiling modes
    
    TVT, 47:6 (2009),  891–898
17. Microbubble boiling: Mechanism of the process, objectives and methods of investigations
    
    TVT, 47:5 (2009),  707–711
18. Notes concerning some aspects of vapor explosion
    
    TVT, 46:5 (2008),  797–800
19. A possible mechanism of triggering a vapor explosion
    
    TVT, 44:6 (2006),  913–917
20. The behavior of a vapor film on a highly superheated surface immersed in subcooled water
    
    TVT, 43:1 (2005),  100–114
21. The thermomechanical mechanism of fine fragmentation of liquid droplets under conditions of vapor explosion
    
    TVT, 42:3 (2004),  491–492
22. The ineffectiveness of using a universal geometric dimension in describing the hydrodynamics and heat transfer in porous structures
    
    TVT, 41:6 (2003),  907–913
23. The development of a three-fluid model of two-phase flow for dispersed-annular mode of flow in channels: Film thickness and pressure drop
    
    TVT, 41:3 (2003),  455–460
24. The Development of a Three-Fluid Model of Two-Phase Flow for Dispersed-Annular Mode of Flow in Channels: Deposition and Entrainment of Droplets
    
    TVT, 40:5 (2002),  772–778
25. The Development of a Three-Fluid Model of Two-Phase Flow for a Dispersed-Annular Mode of Flow in Channels: Size of Droplets
    
    TVT, 40:4 (2002),  641–651
26. Regenerated boiling and enhancement of heat transfer
    
    TVT, 39:3 (2001),  479–487
27. High-temperature heat-shielding panels with thermochemical cooling based on the reaction of steam conversion of methane
    
    TVT, 38:6 (2000),  963–974
28. A study into development of instability and collapse of vapor layer on a heated solid hemispherical surface
    
    TVT, 38:6 (2000),  935–944
29. Investigation of the characteristics of heat-absorbing surfaces by the electron-beam heating technique
    
    TVT, 37:6 (1999),  971–979
30. TURBINA test bed at IVTAN for investigation of the thermal state of high-temperature elements of gas turbines
    
    TVT, 36:6 (1998),  984–989
31. Hydraulic characteristics of envelopes made of porous mesh materials
    
    TVT, 34:6 (1996),  924–928
32. On calculation of thermal distortion characteristics of cooled laser mirrors
    
    TVT, 34:4 (1996),  619–625
33. Universal model of critical heat flux of subcooled liquid boiling in channels
    
    TVT, 34:1 (1996),  52–56
34. A generalization of the results of enhancement of heat transfer in channels with porous inserts
    
    TVT, 32:3 (1994),  433–440
35. Temperature fields in a mirror body and the thermal deformation of a reflecting surface
    
    TVT, 31:2 (1993),  308–312
36. Experimental-study of local flow structure over a stationary packed-bed
    
    TVT, 27:2 (1989),  321–326
37. Analysis of the possibilities of controlling the curvature of a bimetallic plate by varying its temperature-field
    
    TVT, 26:2 (1988),  306–310
38. Controlling the shape of the surface of a cooling bimetallic plate by changing the parameters of the coolant
    
    TVT, 26:1 (1988),  87–93
39. Flow in a channel with deflections containing a porous filler
    
    TVT, 24:5 (1986),  941–947
40. Problems of heat-transfer in cooled mirrors in industrial lasers
    
    TVT, 23:6 (1985),  1200–1210
41. Experimental-study of the flow resistance of porous structures in the adiabatic motion of steam water mixtures
    
    TVT, 23:5 (1985),  934–940
42. К выбору области рационального использования охлаждаемых зеркал
    
    TVT, 22:4 (1984),  803–805
43. Some measurements of hydraulic resistance in boiling water heated to below the saturation temperature
    
    TVT, 21:2 (1983),  303–308
44. Исследование гидравлического сопротивления при кипении натрия в трубе
    
    TVT, 15:5 (1977),  1116–1118
45. Об инверсии температуры при кипении щелочных металлов в трубах в условиях кольцевого режима течения
    
    TVT, 9:6 (1971),  1242–1247
46. Boiling of molten alkali metals in tubes
    
    TVT, 8:2 (1970),  309–318
47. Methods for increasing the reliability of boiling liquid-metal loops
    
    TVT, 8:1 (1970),  222–224
48. О кипении жидких щелочных металлов в трубах
    
    TVT, 7:2 (1969),  374–376