Tomsk Scientific Center of the Siberian Branch of the Russian Academy of Sciences
Tomsk Scientific Center of the Siberian Branch of the Russian Academy of Sciences

Technological gorenje

Computational Physics Chemical Physics Thermophysics
Head of Laboratory

Anatoly S Maznoy

DSc in Engineering
Publications
49
Citations
561
h-index
15
CoLab ID
R-382F3-00000-PZ82C
ORCID
0000-0003-3773-8757
Scopus ID
55543355100
ResearcherID
I-9359-2014
Google Scholar ID
nWTP6esAAAAJ
Authorization required.

The development of highly efficient ways of using fuel energy in combustion devices based on advanced materials and structures. Gorenje

  1. Computational fluid dynamics
  2. Experimental thermophysics
  3. Experimental research methods
  4. Structural metallographic studies, including computer statistical image processing of structures and measurement of microhardness
  5. Metallography
  6. Structural analysis
Anatoly Maznoy 🥼 🤝
Head of Laboratory
Alexander Kirdyashkin
Alexander Kirdyashkin
Leading researcher
Sergey Zambalov 🥼 🤝
Senior Researcher
Igor Yakovlev
Senior Researcher
Ramil M Gabbasov
Ramil Gabbasov
Researcher
A M Shulpekov
A Shulpekov
Researcher
Nikita Pichugin
Junior researcher
Daniil Astakhov
Junior researcher
Junior researcher
Dmitry Kasaev
Research Engineer

Research directions

Self-propagating high-temperature synthesis of porous products from intermetallides

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Self-propagating high-temperature synthesis of porous products from intermetallides
Direct synthesis of porous products with a given shape, size, micro- and macrostructure, ready for use in energy conversion devices: infrared and porous burners, TTE.

investigation of the physico-chemical nature of gorenje and synthesis processes in heterogeneous media with melting components

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investigation of the physico-chemical nature of gorenje and synthesis processes in heterogeneous media with melting components
investigation of the physico-chemical nature of gorenje and synthesis processes in heterogeneous media with melting components

Research at the interface of materials science and gorenje to create advanced sources of thermal energy

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Research at the interface of materials science and gorenje to create advanced sources of thermal energy
Thermal power devices based on the principle of filtration gorenje of hydrocarbon gases are created and investigated on the basis of porous intermetallides obtained in the laboratory. Scale: from laboratory (verification of models) to devices needed in real life (with a capacity of up to tens and hundreds of kilowatts).

Methods of technological gorenje for waste processing to obtain promising ceramic materials

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Methods of technological gorenje for waste processing to obtain promising ceramic materials
Surprisingly, the fact is that production and consumption waste can be processed in a technological gorenje mode, the purpose of which is not just to burn waste, but to obtain the ceramic materials in demand at an extremely low cost. The topic is new and promising. A lot is in the know-how mode.

Simulation of fuel combustion processes in energy apparatuses and internal combustion engines Gorenje

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Simulation of fuel combustion processes in energy apparatuses and internal combustion engines Gorenje
CFD gorenje processes in porous and microchannel media, chambers of internal combustion engines. Detailed accounting of gas dynamics, chemical kinetics, all types of heat transfer, 2D, 3D. Own computational mini-cluster, developments in algorithms and software.

Publications and patents

Found 
20252026
 | Матвеев Алексей Евгеньевич
20232025
 | Замбалов Сергей Доржиевич
20232025
 | Яковлев Игорь Александрович
20212024
 | Мазной Анатолий Сергеевич
20212023
 | Замбалов Сергей Доржиевич
20172019
 | Мазной Анатолий Сергеевич

Lab address

Академический пр., 10/4, Томск, Томская обл.
Authorization required.