Global Microchannel Heat Exchanger Market to Grow at 8.72% CAGR Between 2017 and 2024

A heat exchanger is a device that is designed so to efficiently transfer or "exchange" heat from one matter to the another.  In this process, when a fluid is used to transfer heat, it can be water or oil or air. Thus, the most well-known type of heat exchanger is a car radiator.

The exchangers are one of the most important and widely used as a process equipment in various industrial sites. Regardless of the particular industry in mention, it will likely require some type of temperature regulation, and for that exchangers are likely to come into play in the future. The exchangers may be used for either heating or cooling, however, in the industrial sector, they are overpoweringly used for cooling particularly within plants and refineries.

Let us dive a little deeper into what heat exchanger are, their need, working and functioning, and how they are classified.

Why Are Heat Exchangers Needed?

Heat exchangers are broadly used and have various range in industrial applications. They are used as components of air conditioning and cooling systems or of heating systems. A lot of industrial processes call for the heat exchanger for the function of heat, however, mainly an essential care must be taken to keep these processes from getting too hot.

The heat exchangers in the industrial plants and factories are required to keep machinery, chemicals, water, gas and other things in a safe zone while operating a particular temperature. Apart from this, the heat exchangers may also be used to capture and transfer steam or heat exhaust that is released as a byproduct from a process or operation such that the steam or heat can be put for a better use elsewhere. Thus, this increasing efficiency and saving the plant money is what heat exchangers server for. And, due to this, the heat exchangers are essential in industries across the world.

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Process of Heat Exchange

The heat exchanger classification method mainly refers either to the heat, that is being exchanged on a direct note, or whether they are separated by a physical barrier, such as the walls of their tubes.

Direct Contact Heat Exchangers – When talking about direct contact heat exchangers, these tend to bring the hot and cold fluids into the direct contact with each other in the tubes itself. This process is extremely effective means of transferring heating in a direct way, as it is considered to be safe and is desired to be processed in almost every industry, across the world. Further, direct contact heat exchangers may be a good choice if the hot and cold fluid are merely different temperature variations of the same fluid, or if the fluid mixture is a desired or irrelevant part of the industrial process.

Indirect Contact Heat Exchangers – In the indirect contact heat exchangers process, the hot and cold fluids are kept physically separated from each other. Typically, indirect contact heat exchangers keep the hot and cold fluids in different sets of pipes and rely on radiant energy and convection to exchange the heat. This is frequently done to avoid contamination or pollution of one fluid by the other.