Energy efficiency of combined cold and heat production 1Basok BI, 1Dubovskyi SV, 1Tverdokhlib OS. Energy efficiency of combined cold and heat production. 2018 ;(4):47-53.
Mechanisms of heat-hydrodynamic instability with local heat supply to gas 1Basok BI, 2Gotsulenko VV. Mechanisms of heat-hydrodynamic instability with local heat supply to gas. 2018 ;(3):69-79.
Novel combined thermodynamic cycle 1Khalatov AA, 1Stupak OS, 2Grishuk MS, 2Galaka OI. Novel combined thermodynamic cycle. 2018 ;(2):58-64.
Statistical method for the processing of experimental data on the boiling of aqueous solutions of polymers 1Panin VV, 1Krivoshey FA, 1Somin OA. Statistical method for the processing of experimental data on the boiling of aqueous solutions of polymers. 2018 ;(2):50-57.
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.
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.
Stochastic regularization of ill-posed problems of heat transfer 1Panin VV, 1Krivoshey FA, 2Bogdan Yu.A. Stochastic regularization of ill-posed problems of heat transfer. 2014 ;(6):80-84.
Retrospective task for a non-stationary operator of heat conductivity 1Panin VV, 1Krivoshey FA, 2Bogdan Yu.A. Retrospective task for a non-stationary operator of heat conductivity. 2014 ;(8):72-76.
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.
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.