Due to their compact size, Plate Heat Exchangers (PHEs) are widely used in industrial processes. They have higher heat-transfer performance, lower temperature gradient, higher turbulence, and easier maintenance in comparison with shell and tube heat exchangers. For minimizing material consumption and space requirements compact models have bee
This paper presents the results of experimental research on 8 plate heat exchangers. Their purpose i...
The aim of this work is to sort and schematically describe single types of heat exchangers. The prob...
This work presents a part of a complex research program based on optimization and design of plates f...
"In recent years, there has been an increasing awareness of Plate Heat Exchangers (PHE's) in industr...
The fouling removal mechanism for plate heat exchanger (PHE) heat transfer surface controlled by she...
The Plate Heat Exchanger (PHE) is one of the most efficient types of modern heat exchangers. Heat tr...
Plate and Frame Heat Exchangers have special characteristics for both fouling and heat recovery. The...
Among different methods for mitigation of fouling the use of enhanced heat transfer surfaces is one ...
The uncertainty of fouling behaviour in plate heat exchangers is one of the main reasons (if not the...
The novel approach of estimating the influence of plate corrugations geometry on plate heat exchange...
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 phenomena of fouling can significantly deteriorate the intensity of heat transfer process and in...
Plate heat exchangers (PHEs) play an important role in different technical fields, namely, in energe...
One of the major indeterminates in the design as well as operation of heat exchangers is the rate of...
This paper presents the results of experimental research on 8 plate heat exchangers. Their purpose i...
The aim of this work is to sort and schematically describe single types of heat exchangers. The prob...
This work presents a part of a complex research program based on optimization and design of plates f...
"In recent years, there has been an increasing awareness of Plate Heat Exchangers (PHE's) in industr...
The fouling removal mechanism for plate heat exchanger (PHE) heat transfer surface controlled by she...
The Plate Heat Exchanger (PHE) is one of the most efficient types of modern heat exchangers. Heat tr...
Plate and Frame Heat Exchangers have special characteristics for both fouling and heat recovery. The...
Among different methods for mitigation of fouling the use of enhanced heat transfer surfaces is one ...
The uncertainty of fouling behaviour in plate heat exchangers is one of the main reasons (if not the...
The novel approach of estimating the influence of plate corrugations geometry on plate heat exchange...
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 phenomena of fouling can significantly deteriorate the intensity of heat transfer process and in...
Plate heat exchangers (PHEs) play an important role in different technical fields, namely, in energe...
One of the major indeterminates in the design as well as operation of heat exchangers is the rate of...
This paper presents the results of experimental research on 8 plate heat exchangers. Their purpose i...
The aim of this work is to sort and schematically describe single types of heat exchangers. The prob...
This work presents a part of a complex research program based on optimization and design of plates f...