The mathematical model of vapour condensation from the mixture with noncondensing gas in Plate Heat Exchanger (PHE) channels is presented. The model accounts for the change of process parameters along the heat transfer surface and local features of heat and mass transfer processes in PHEs channels with plates of different corrugations geometry. It consists of the system of ordinary differential equations with considerably nonlinear right parts. The software for its solution by finite difference method is developed. The validity of the model is confirmed by comparison with the experiment for steam-air mixture condensation in a PHE channel sample
The technology of flue gas heat recovery has been reviewed. The mathematical model requirements were...
The computer aided design of plate heat exchanger with mixed grouping of plates is considered. It is...
This paper presents a new computational procedure for refrigerant condensation inside herringbone-ty...
The process of steam condensation in the presence of air in channels of plate heat exchanger is inve...
Increasing energy usage efficiency requires enhanced heat energy recuperation between process stream...
The mathematical model of Plate Heat Exchanger (PHE) subjected to fouling is proposed. It is represe...
The cooling of gaseous streams that include condensable components is frequently encountered in diff...
The condensation of steam from its mixture with air in channels of plate heat exchanger (PHE) is stu...
The mathematical model of plate heat exchanger (PHE) is developed using decomposition of the plate o...
Plate Heat Exchangers (PHEs) are one of the most efficient types of contemporary heat exchangers wit...
The phenomena of fouling can significantly deteriorate the intensity of heat transfer process and in...
Low pressure and especially vacuum vapours condensation processes are widely used in different indus...
In this thesis, an experimental and simulation study of heat transfer in water-to-air compact-plate...
The developments in design theory of plate heat exchangers, as a tool to increase heat recovery and ...
In this paper, a numerical study has been carried out to investigate the heat and mass transfer with...
The technology of flue gas heat recovery has been reviewed. The mathematical model requirements were...
The computer aided design of plate heat exchanger with mixed grouping of plates is considered. It is...
This paper presents a new computational procedure for refrigerant condensation inside herringbone-ty...
The process of steam condensation in the presence of air in channels of plate heat exchanger is inve...
Increasing energy usage efficiency requires enhanced heat energy recuperation between process stream...
The mathematical model of Plate Heat Exchanger (PHE) subjected to fouling is proposed. It is represe...
The cooling of gaseous streams that include condensable components is frequently encountered in diff...
The condensation of steam from its mixture with air in channels of plate heat exchanger (PHE) is stu...
The mathematical model of plate heat exchanger (PHE) is developed using decomposition of the plate o...
Plate Heat Exchangers (PHEs) are one of the most efficient types of contemporary heat exchangers wit...
The phenomena of fouling can significantly deteriorate the intensity of heat transfer process and in...
Low pressure and especially vacuum vapours condensation processes are widely used in different indus...
In this thesis, an experimental and simulation study of heat transfer in water-to-air compact-plate...
The developments in design theory of plate heat exchangers, as a tool to increase heat recovery and ...
In this paper, a numerical study has been carried out to investigate the heat and mass transfer with...
The technology of flue gas heat recovery has been reviewed. The mathematical model requirements were...
The computer aided design of plate heat exchanger with mixed grouping of plates is considered. It is...
This paper presents a new computational procedure for refrigerant condensation inside herringbone-ty...