Problem 2 A brass tube of inner and outer diameters D,-2 cm and Do-3 cm, respectively, is used to...
Please help with parts a, b, and c A steel tube (k)of inner and outer diameters D, 24 mm and D, 30 mm, respectively, is used to transfer heat from hot gases flowing over the tube (h 250 ) to cold water flowing through the tube (h 9000) (a) An overall surface efficiency exists for both the hot surface h) and cold surface without any fins on the pipe, what are the values of oh and no.e? (b) Find the...
Steam in a heating system flows through a tube whose height (H), outer diameter (D), and outer surface temperature (T) are 1m, 3m and 120°C respectively. Circular aluminium fins (k = 180 W/m.°C) of outer diameter D, = 6cm and constant thickness t=2mm are attached to the tube as shown in the figure. The space between the fins is 3 mm. Heat is transferred to the surrounding air at 25°C with a heat transfer coefficient of h = 60 W/m².°C....
11.3 A type-302 stainless steel tube of inner and outer diam- eters D; = 22 mm and D. = 27 mm, respectively, is used in a cross-flow heat exchanger. The fouling factors, R%, for the inner and outer surfaces are estimated to be 0.0004 and 0.0002 m². K/W, respectively. Fouling factors R Tube, SS302 Water Tmi = 75°C 4 m.i= 0.5 m/s - + 00 11.16 The hot and cold letterature 4 al bloo bestod andol i n woll brotlet...
Steam in a heating system flows through a 1-m long tube whose outer diameter is DI = 4 cm and whose walls are maintained at a temperature of T, = 120 °C. Circular fins (k = 46 W/m. °C) of outer diameter D2 = 8 cm and constant thickness t= 3 mm are attached to the tube, as shown in the figure. The space between the fins is 7 mm. Heat is transferred to the surrounding air at T =...
Steam in a heating system flows through tubes whose outer diameter is D1 =3 cm and whose walls are maintained at a temperature of 120oC. Circular aluminum fins (k = 180 W/m.oC) of outer diameters D2 = 6 cm and constant thickness t = 2mm are attached to the tubes. The space between the fins is 3 mm. Heat is transferred to the surrounding air at T∞ = 25 oC, with a convection heat transfer coefficient of h = 60 W/m2.oC. Determine the...
6. Problem 3 (20 points): A Steam in a heating system flows through tubes whose outer diameter is 3 cm and whose walls are maintained at a temperature of 120°C. Circular aluminum alloy fins (k = 180 W/m.) of outer diameter 6 cm and constant thickness t 2 mm are attached to the tube, as shown in the figure below. The space between the fins is 3 mm, and thus there are 200 fins per meter length of the tube....
Problem 3 (20 points) A cross-flow heat exchanger consists of a bundle of 32 tubes in a long duct. Hot water at 150°C and a mean velocity of 0.5 m/s enters the tubes having inner and outer diameters of 10.2mm and 12.5mm and has to be cooled to 136°C. The tubes are made of steel of thermal conductivity k-40 W/m.K. Air at 10°c enters the exchanger (unfinned) with a volumetric flow rate of 1.0 m3/s. The convective heat transfer coefficient...
Twenty [kw] of heat is to be removed from 375 [k] water flowing at 0.15 [kg/s] into the inner pipe of concentric tube heat exchanger. Cooling water enters the annulus at 290 [k] and leaves at 320 [k] with a flow in the opposite direction of the inner flow. The diameter of the thin- walled inner pipe is 2.5 [cm] a) b) c) Calculate the exit temperature of the hot fluid and the mass flow rate of the cold fluid...
6 Problem 4 (25%) A 2-shell passes and 4-tube passes heat exchanger is used to heat glycerin (Cp.gly = 2447) entering at 15 °C by hot water (Cp water = 4180 f.), which enters at 90°C. The thin-walled inner tube has a 4 cm diameter and a total length of 15 m. The hot water flows through the tube at a total rate of 0.265 kg/s, and the glycerin through the shell at a rate of 0.6 kg/s. The convection...
3) Insulating a Cold Fluid Line This is a steady-state problem, and latent heat eonsiderations do not matter As show in Fig. (a), an uninsulated hose of outer radius r1 cm is used to transfer a liquid refrigerant at a 273 K Tice r 1 cm uniform temperature T 265 K. Since the hose is uninsulated, the outer surface is also at 265 K. Because the outer surface of the hose is below the melting point of water, a layer...