Module 1. Conduction heat transfer
Lesson 6
ASSIGNMENTS
6.1 Assignments
1. The wall of a cold store is laid from (chamotte) brick, and wall thickness = 250 mm. The temperatures of wall surface tw1 = 1350°C and tw2 = 50°C. The thermal conductive of brick is a function of temperature, λ = 0.838(1+0.0007t) W/m-°C. Calculate and represent graphically the distribution of temperature through the wall.
ANSWER
|
x, mm... |
0 |
50 |
100 |
125 |
150 |
200 |
225 |
250 |
|
t, °C….. |
1350 |
1145 |
920 |
800 |
670 |
390 |
230 |
50 |
2. The brickwork of a furnace is built up of layers laid of fireclay and red brick and the space between the two layers of brickwork is filled with crushed diatomite brick. The fireclay is 120 mm thick (δ1); the thickness of the diatomite filling δ2 = 50 mm, and the thickness of the red brick layer δ3 = 250 mm. The thermal conductivity of the three materials are equal respectively λ1 = 0.93, λ2 =0.13 and λ3 = 0.7 W/m-°C. What should be the thickness of the red brick layer d3, if the brickwork is to be laid without the diatomite filling between the two layers, so that the heat flux through the brickwork remains constant?
ANSWER
The layer of red brick must be 500 mm thick.
3. A steam pipeline, 150/160 mm in diameter, is covered with a layer of heat-insulating materials of thickness tins = 100 mm; the thermal conductivity of tube λ1 = 50 W/m-°C and that of the insulating material λ2 = 0.08 W/m-°C. The temperature of the pipeline inside surface tw1 = 400°C and the temperature of the outside surface of the insulating layer tw3 = 50°C.
Find the loss of heat from length of 1m of the pipeline and the temperature at the interface between the tube and insulation.
ANSWER
The loss of heat from length of 1m of the steam pipeline ql = 216 W/m. The temperature at the interface between the wall of the pipeline and the insulation tw2 = 400°C.
4. A steel pipeline of a diameter d1/d2 = 100/110 mm with a thermal conductivity λ1 = 50 W/m-°C is covered with two layers of insulation of equal thickness δ2 = δ3 = 50 mm. The temperature of the tube inside surface tw1 = 250°C and the temperature of the outside surface of insulation tw4 = 50°C. Determine the loss of heat through the insulation from length of 1 m of the pipeline and the temperature at the interface between the two layers of insulation, if the first layer of insulation, applied on the surface of the tube is made from a material with a thermal conductivity λ2 = 0.06 W/m-°C and the second layer from an insulating material with a thermal conductivity λ3 = 0.12 W/m-°C.
ANSWER
The loss of heat from length of 1 m of the pipeline ql = 89.5 W/m. The temperature at the interface between the two layers of insulation tw3 = 97°C.
5. A steam pipeline d1/d2 = 160/170 mm in diameter is covered with a layer of insulation of thickness = 100 mm with a thermal conductivity depending on the temperature is {0.062 (1 + 0.363×10-2t)} W/m-°C. Determine the amount of heat loss from length of 1m of pipeline and the temperature of its inner surface, if the temperature of the outer pipeline surface tw2 = 300°C and the temperature of the outer surface of the insulation should not exceed 50°C.
ANSWER
The loss of heat from length of 1m of the steam pipeline qt = 250 W/m. The inner pipeline surface temperature tw1 = 300°C