Heat Physics

Application of the Boltzmann lattice method to the analysis of nanofluid flow in a curved channel with radial irregularities of the temperature and the concentration of nanoparticles

¹Avramenko AA, ¹Tyrinov AI, ¹Dmytrenko NP, ¹Kravchuk OV. Application of the Boltzmann lattice method to the analysis of nanofluid flow in a curved channel with radial irregularities of the temperature and the concentration of nanoparticles. 2017 ;(1):52-59.

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A new criterion of thermal-hydraulic efficiency for heat intensifiers

¹Khalatov AA, ¹Donyk TV. A new criterion of thermal-hydraulic efficiency for heat intensifiers. 2014 ;(7):82-85.

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Stochastic regularization of ill-posed problems of heat transfer

¹Panin VV, ¹Krivoshey FA, ¹Bogdan Yu.A. Stochastic regularization of ill-posed problems of heat transfer. 2014 ;(6):80-84.

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Retrospective task for a non-stationary operator of heat conductivity

¹Panin VV, ¹Krivoshey FA, ¹Bogdan Yu.A. Retrospective task for a non-stationary operator of heat conductivity. 2014 ;(8):72-76.

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Specifics of supercritical parameters of a flow under non-uniform heating of the fuel assembly channel walls

¹Avramenko AA, ¹Kondratieva EA, ¹Kovetskaya MM, ¹Tyrinov AI, ¹Vasilchenko VV. Specifics of supercritical parameters of a flow under non-uniform heating of the fuel assembly channel walls. 2014 ;(10):76-81.

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Research of features of the impact of the discrete pulse energy input method on the formation of lipid nanostuctures

¹Dolinskiy AA, ¹Avdeeva LYu., ¹Sharkova NO, ²Chunikhin OYu. Research of features of the impact of the discrete pulse energy input method on the formation of lipid nanostuctures. 2016 ;(4):49-54.

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Investigation of the hydrodynamic stability of a flow in the porous medium based on the renormalization group method

¹Avramenko AA, ¹Dmytrenko NP, ¹Tyrinov AI. Investigation of the hydrodynamic stability of a flow in the porous medium based on the renormalization group method. 2016 ;(1):47-56.

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Analytical modeling of thermal processes in heat-radiating bodies using S-functions

¹Slesarenko AP, ²Demyanchenko OP, ²Safonov MO. Analytical modeling of thermal processes in heat-radiating bodies using S-functions. Reports of the National Academy of Sciences of Ukraine. 2015 ;(5):71-76.

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Numerical-analytical modeling and identification of a nonlinear thermal process with regard for nonstationary radiative heat exchange

¹Slesarenko AP, ²Safonov MO, ²Demyanchenko OP. Numerical-analytical modeling and identification of a nonlinear thermal process with regard for nonstationary radiative heat exchange. Reports of the National Academy of Sciences of Ukraine. 2015 ;(4):70-76.

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