Why are fins added to tubing used for heat transfer?

• A. To decrease thermal resistance
• B. To increase pressure
• C. To increase heat transfer by increasing surface area
• D. To reduce weight

Answer: (C)

Fins are incorporated into tubing used for heat transfer primarily to enhance heat exchange efficiency. The primary function of fins is to increase the surface area of the tubing. By providing an extended surface, fins allow for more heat to be transferred between the fluid inside the tubing and the surrounding environment. This is particularly critical in applications such as condensers and evaporators in HVAC systems, where maximizing heat transfer is essential for efficiency.

When the surface area is increased, there is a greater area for thermal energy to flow from the hot medium to the cooler medium, improving overall performance. The addition of fins leads to a more effective heat exchange process, supporting the system's ability to maintain desired temperature levels and increase operational efficiency.

In contrast, while decreasing thermal resistance and pressure management are important in heat exchanger design, they are not the primary reasons for adding fins to tubing. Similarly, reducing weight, while beneficial, is not the main factor driving the use of fins in heat transfer applications. Therefore, the enhancement of heat transfer through increased surface area represents the fundamental reason behind the incorporation of fins in heat exchange systems.