· Development of industrial furnaces - heat engine - in connection with the development of industrial
production.
· Thermo-physical properties of gases, statics and kinematics combustion of gaseous fuels.
· Theory of similarity in of heat transfer.
· Heat transfer by convection.
· Heat transfer by conduction.
· Heat transfer by radiation in a system of surface emitters, volume emitter.
· Terms of uniqueness of heat transfer.
· Area of external heat and the internal of heat transfer in the working space of the furnace.
· Fundamentals of furnace hydraulics, hydraulic systems, industrial furnaces.
· Heating systems for industrial furnaces (burners whirl, radiation, heat recovery, regeneration).
· Recuperator (area of convective and radiative of heat transfer, steady and
work unsteady heat exchanger).
· Regenerators.
production.
· Thermo-physical properties of gases, statics and kinematics combustion of gaseous fuels.
· Theory of similarity in of heat transfer.
· Heat transfer by convection.
· Heat transfer by conduction.
· Heat transfer by radiation in a system of surface emitters, volume emitter.
· Terms of uniqueness of heat transfer.
· Area of external heat and the internal of heat transfer in the working space of the furnace.
· Fundamentals of furnace hydraulics, hydraulic systems, industrial furnaces.
· Heating systems for industrial furnaces (burners whirl, radiation, heat recovery, regeneration).
· Recuperator (area of convective and radiative of heat transfer, steady and
work unsteady heat exchanger).
· Regenerators.