Effect of Fins on Heat transfer

1. Brian Spencer Steven Besendorfer Winter 2010 Effect of Fins on Heat transfer

2. Model D T∞ = 23 °C h L Tb Aluminum(k) Aluminum(k) t Ts = 202.25 °C Ts = 202.25 °C T∞ T∞ 1/(h*A) 1/(h*At*No) Tb Tb t/(k*A) t/(k*A) Ts Ts

3. Purpose: • Determine rate of heat transfer with and without fins • Determine fin effectiveness Purpose/methods Methods: • Place block on hot plate and measure base and surface temperatures using a thermocouple • Insert fins into block and re-measure the temperatures • Calculate rates of heat transfer and fin effectiveness as shown in the following slides

4. Experimental Procedure Without Fins With Fins

5. Calculations

6. Calculations • Assumptions: • Steady-State • Free convection over a horizontal plate • Sides are well insulated • Effects of radiation are negligible • Ideal contact between fins and base as described in Table 3.1(b) • Properties of pin fins as described in Table 3.5

7. q with fins = 23.72 W q without fins = 9.34 W Fin effectiveness = 2.54 • We originally wanted to calculate the difference in base temperature with and without fins; however, we learned that fins enhance heat transfer and do not directly influence the base temperature. • Based on this we changed our experiment to find the rates of heat transfer and fin effectiveness. • Our experiment showed that even with a minimal number of small fins the rate of heat transfer can be greatly enhanced; for our experiment, using fins of 1.5” length and 0.5” diameter more than doubled the heat transfer rate. Summary of Results/ Conclusions