2. sdu to (di CUS A concentric tube arrangement, for which the inner and outer diameters are 80 mm and 100 mm, respectively, is used to remove heat from a biochemical reaction occur- ring in a 1-m-long settling tank. Heat is generated uni- formly within the tank at a rate of 105 W/m³, and water is supplied to the annular region at a rate of 0.2 kg/s. boqolovebyllu Water oy Reaction tank, q= 1 x 105 W/m³,- L = 1 m ess m = 0.2 kg/s ai ai 2A bozas YSTIB VETERS D₁ = 80 mm 8 Jaundx-Insulation wrap D₁ = 100 mm 6,29vi (a) Determine the inlet temperature of the supply water that will maintain an average tank surface tempera- ture of 37°C. Assume fully developed flow and thermal conditions. Is this assumption reasonable? (b) It is desired to have a slight, axial temperature gra- dient on the tank surface, since the rate of the bio- chemical reaction is highly temperature dependent. Sketch the axial variation of the water and surface temperatures along the flow direction for the fol- lowing two cases: (i) the fully developed conditions of part (a), and (ii) conditions for which entrance effects are important. Comment on features of the temperature distributions. What change to the sys- tem or operating conditions would you make to reduce the surface temperature gradient? (d) -hos -izzil .OT his y

Transcribed Image Text:

2. A concentric tube arrangement, for which the inner and outer diameters are 80 mm and 100 mm, respectively, is used to remove heat from a biochemical reaction occur- ring in a 1-m-long settling tank. Heat is generated uni- to (di formly within the tank at a rate of 105 W/m³, and water is supplied to the annular region at a rate of 0.2 kg/s. sdu) betsl CUS -102 sdu Reaction tank, q= 1 x 105 W/m³, boqolovsb L=1m Water oxy m = 0.2 kg/s + of 19 -D₁ = 80 mm D = 100 mm x-Insulation wrap 6,20vi (a) Determine the inlet temperature of the supply water that will maintain an average tank surface tempera- ture of 37°C. Assume fully developed flow and thermal conditions. Is this assumption reasonable? ni sb ai als bozasq YSTIE (d) 2A (b) It is desired to have a slight, axial temperature gra- dient on the tank surface, since the rate of the bio- chemical reaction is highly temperature dependent. Sketch the axial variation of the water and surface temperatures along the flow direction for the fol- lowing two cases: (i) the fully developed conditions of part (a), and (ii) conditions for which entrance effects are important. Comment on features of the temperature distributions. What change to the sys- tem or operating conditions would you make to betslag reduce the surface temperature gradient? -izzib OT his vi