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Viktor Dilman

From Wikipedia, the free encyclopedia

Viktor Vasilyevich Dilman
Born(1926-03-11)March 11, 1926
Proskurov (now Khmel’nitskiy), Ukrainian SSR, Soviet Union
Alma materMoscow Institute of Chemical Engineering
All-Union Research Institute of Oxygen Engineering
Institute of Nitrogen Industry and Organic Synthesis Products
Known forchemical engineering, hydrodynamics

Viktor Vasilyevich Dilman, also spelled Dil'man (Russian: Виктор Васильевич Дильман, born March 11, 1926, in Proskurov (now Khmel’nitskiy), Ukrainian SSR, Soviet Union) is a Russian scientist performing research for USPolyResearch. He is best known for his work in chemical engineering and hydrodynamics including the approximate methods for solving nonlinear differential equations of mass, heat, and momentum transfer;[1][2] mathematical modeling of chemical reactor processes[3][4] and catalytic distillation;[5] heat, mass, and momentum transfer in turbulent flow;[6] fluid dynamics in granular beds; surface convection (Marangoni instability),[7][8] absorption,[9] and molecular convection.[10]

Biography

Dilman received MS in cryogenic engineering from the Moscow Institute of Chemical Engineering (1947), PhD in chemical engineering from the All-Union Research Institute of Oxygen Engineering (Moscow, 1953), and DSc in chemical engineering from the Institute of Nitrogen Industry and Organic Synthesis Products (Moscow, 1968). His major job track record includes head of ammonia synthesis laboratory at the Institute of Nitrogen Industry and Organic Synthesis Products (1965 to 1988); lead researcher at the Kurnakov Institute of General and Inorganic Chemistry, Russian Academy of Sciences (1988 to present); professor at the Moscow Physicotechnical Institute (1981 to present); senior researcher (2005 to present) at USPolyResearch.

Major scientific achievements

Dilman developed several approximate methods for solving complicated mass, heat, and momentum transfer problems;[1][2] proposed a wave model for describing the longitudinal dispersion in turbulent flow;[3][4] identified the conditions at which the Marangoni effect can occur;[7][8] showed that the diffusion evaporation mode in unsteady evaporation of liquid into gas may lose its stability if the molecular weight of the evaporating liquid is smaller than that of the gas in contact with this liquid.[10] The total number of published papers and books is more than 300. Currently serves on the Editorial Advisory Board of Theor. Found. Chem. Eng.

References

  1. ^ a b Polyanin, AD; Dilman VV (1994). Methods of Modeling Equations and Analogies in Chemical Engineering. London: CRS Press. ISBN 0-8493-9914-9.
  2. ^ a b Polyakov YuS; Dil'man VV (2006). "Approximate Method for Nonlinear Differential and Integrodifferential Equations". AIChE Journal. 52 (11): 3813–3824. doi:10.1002/aic.10995.
  3. ^ a b Westerterp KR, Dilman VV, Kronberg AE (1995). "Wave Model for Longitudinal Dispersion: Development of the Model". AIChE Journal. 41 (9): 2013–2028. doi:10.1002/aic.690410902.
  4. ^ a b Westerterp KR, Dilman VV, Kronberg AE, Benneker AH (1995). "Wave Model for Longitudinal Dispersion: Analysis and Application". AIChE Journal. 41 (9): 2029–2039. doi:10.1002/aic.690410903.
  5. ^ Dil’man VV, Lotkhov VA, Lipatova AA, Kvashnin SYa, Kulov NN (2003). "Dynamics of Unsteady-State Catalytic Distillation in a Packed Column with a Varied Length of the Reaction Zone". Theor. Found. Chem. Eng. 37 (6): 557–567. doi:10.1023/B:TFCE.0000007901.15967.e1. S2CID 95149421.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  6. ^ Dilman VV (1968). "The Theory of Heat and Mass Transfer in Turbulent Flow". Int. Chem. Eng. 8 (1): 156–161.
  7. ^ a b Skurygin EF, Dilman VV (2000). "On Marangoni Instability during Desorption Accompanied by Evaporation". J. Food Eng. 43 (3): 125–131. doi:10.1016/S0260-8774(99)00125-9.
  8. ^ a b Kaminsky VA, Vyazmin AV, Kulov NN, Dilman VV (1998). "Marangoni Effect in the Presence of Bulk Turbulence". Chem. Eng. Sci. 53 (19): 3347–3353. doi:10.1016/S0009-2509(98)00112-2.
  9. ^ Dil’man VV, Kulov NN, Lotkhov VA, Kaminskii VA, Naidenov VI (1998). "On the Difference in Rates of Absorption and Desorption of Gases". Theor. Found. Chem. Eng. 32 (4): 337–346.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  10. ^ a b Dil’man VV, Lotkhov VA, Kulov NN, Naidenov VI (2000). "Evaporation Dynamics". Theor. Found. Chem. Eng. 34 (3): 201–210. doi:10.1007/BF02755968. S2CID 195335708.{{cite journal}}: CS1 maint: multiple names: authors list (link)
This page was last edited on 12 March 2023, at 17:25
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