1. A liquid food is being pumped in a 1 cm thick steel pipe. The inside diameter of the pipe is 5 cm. The bulk temperature of liquid food is 90°C. The inside pipe surface temperature is 80°C. The surface heat-transfer coefficient inside the pipe is 15 W/(m²K). The pipe has a 2 cm thick insulation. The outside bulk air temperature is 20°C. The surface heat-transfer coefficient on the outside of insulation is 3 W/m²
2. Calculate the insulation surface temperature exposed to the outside.
3. .If the pipe length is doubled, how would it influence the insulation surface temperature? Discuss.
4. A thin-walled concentric tube counter-flow heat exchanger is used to cool engine oil from 160^oC to 60^oC, and water is available at 25^oC, to be used as coolant. The oil and water flow rates are each 2 kg/s and the diameter of the inner tube is 0.5 m. The corresponding value of the overall heat transfer coefficient is 250 W/m² How long must the heat exchanger be to accomplish the desired cooling? Assume specific heat of oil to be ½ of that for water.