Introduction to Heat Exchanger

A heat exchanger is a device, which transfers thermal energy between two fluids at different temperatures. In most thermal engineering applications, both the fluids are in motion and the main mode of heat transfer is convection. Examples are automobile radiators, condenser coils in the refrigerator, air conditioners, solar water heaters, chemical industries, domestic boilers, oil coolers in a heat engine, and milk chillers in pasteurizing plants.

Classification according to construction:

• Plate Type Heat exchangers
• Shell and Tube heat exchanger
• Scraped surface heat exchanger

Plate-type heat exchanger

A plate heat exchanger is used to transfer heat energy from one fluid to another. These fluids never encounter each other due to being separated by the heat exchanger. Typically, a plate heat exchanger will consist of several parallel plates positioned above each other, thus creating a passage in which the fluid can flow between.

Working Principle

Shell and tube type heat exchanger

The shell and tube heat exchanger consists of a bundle of round tubes placed inside the cylindrical shell. Shell and tube heat exchangers transfer heat between a bundle of tubes surrounded by a large shell vessel. Tubes enable the processing of fluids that are more viscous or contain more particulate or larger matter. Fluids that run through the tubes exchange heat with fluids that run over the tubes contained by the shell. The baffles provide support to tubes and deflect the fluid flow normal to tubes.

Working Principle

Working principle

Characteristics	Plate Heat Exchanger	Shell and Tube Exchanger	Scraped surface Exchanger
Cost	Inexpensive compared with other designs	Inexpensive compared with other designs	Relatively more expensive than other designs
Cleaning	Excellent CIP-ability	Excellent CIP-ability	CIP-ability is lower than in other designs
Heat regeneration	High heat regeneration	Medium heat regeneration	No heat regeneration
Capacity	Easy to increase/decrease capacity	Difficult to expand capacity	Difficult to expand capacity
Footprint	Smaller footprint than other designs	Larger footprint than plate-and-frame designs	Smaller footprint than other designs
Pressure	Low operating pressure	High operating pressure	High operating pressure
Fluidity	Not for use with highly viscous or large particulate fluid	Not for use with highly viscous products or products with large particulates	Highly effective with viscous products or products with large particulate fluids
Pressure	High Turbulence	Medium operating pressure	None
Applications	Plate heat exchangers are commonly used for beverage, beer, wort, eggs, sauces, and most dairy processing	Shell and Tube heat exchangers areused for pulpy juices, ketchup, and oil refineries	Scraped surface exchangers are commonly used for Ketchup, Mayonnaise, Spreads and fillings, Sauces and puddings, Baby food

Conclusion

The article was an attempt to deliver all the essential information about what Heat Exchanger is and which type of Heat Exchangers is suitable for your product. Not many documents are available that simplify heat exchanger and compares different aspects of a heat exchanger.