The most important factor in providing heat transfer between fluids in a suitable way is the type of plates used in the heat exchanger. Effective heat transfer is achieved thanks to heat exchanger plates designed in different forms. Our heat exchanger plate varieties are as follows;
Standard Heat Exchanger Plates
Standard Plates are used in applications such as daily hot water supply, low-pressure steam applications, space heating, etc. In order to obtain the most accurate solution in such applications, special distribution channels, wide and narrow angle plate designs, customization such as minimum pressure loss for maximum efficiency with different plate depths can be made.
Wide-Gap Heat Exchanger Plates
In some applications, solid particles are present in the fluid passing through the heat exchanger. For these applications, wide-gap plates specially designed by the MIT Team are used to prevent particles in the fluid from getting stuck in the channels of the heat exchanger plate, thus minimizing the level of contamination in the plates. Heat exchanger plates with wide-gap design are also thicker than standard heat exchanger plates. This makes them more resistant to corrosive agents that may be present in the fluid. These plates are especially used in the textile industry to achieve optimum efficiency in waste heat recovery.
Semi-Welded Heat Exchanger Plates
In some applications, aggressive fluids and high temperatures shorten the lifespan of heat exchanger gaskets. In these applications, we extend the durability and lifespan of the heat exchanger using MIT Semi-Welded plates, where two plates are welded together with a laser beam instead of using a gasket where aggressive fluid is present. The fluid on the other side of the system passing through a gasketed surface as in standard applications also allows easy maintenance of the heat exchanger.
Double-Safeguard Heat Exchanger Plates
In cases where two fluids used in the process must not mix under any circumstances, MIT Double-Safeguard Heat Exchanger Plates ensure that the system is completely safe. In these heat exchangers, two plates are joined together seamlessly, allowing fluid to flow easily between the two plates. In case of any leakage, the fluid can leak out between these two plates without mixing with the other fluid, and can be intervened beforehand. Thanks to its similarity to standard gasketed heat exchangers, it can be easily dismantled and cleaned.
Evaporator Heat Exchanger Plates
MIT Evaporator technology is designed to meet the concentration requirements in industrial fluid and chemical processes. With 15 years of knowledge and research, we provide unique solutions in this field under the MIT brand. Depending on product viscosity, heat characteristics, concentration, efficiency, and production quantities, we recommend tubular and plate type heat exchangers. We also offer different evaporator applications such as single-pass, heat, and vapor decompression based on product type and economic factors.