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10.38 A proposed alternate form for the heat exchange described in Problem 10.37 is shown in Fig. 105. The entire flow conduit 4-in steel tube withavall thickness of 0.065 in. Note that the ID for this tbe is 0.620 in, slightly smaller than that of the in Scheaule 4O pipe (D = 0.622 in). The return Lend is formed by two 90° bend with chort length of straight tube between them. Compute the pres- the line leading to the gage. Compute the energy loss as 0.40 ft/s of water at 50°F flows through the tee. 10.40 Apipingystem for supplying heavy fuel oil at 25°C is ar ranged as shown Eig 10.35. Thebottom leg of the tee is normally capped, hut the cap can be removed to clean the pipe Compute the energy loss as 0.08 m³/s flows through the tee. sure difference between the inlet and the outlet of this de- sign and compare it with the system from Problem 10.37. 10.39 A piping system for a pump contains a tee, as shown in Fig. 10.34, to permit the pressure at the outlet of the pump to be measured. However, there is no flow into 10.41 A5 mm OD × 2.0 mm wall copper tube supplies hot water (80 C) to a washing system in a factory at a flow rate of 250 L/min. At several points in the system, a 90° bend is required. Compute the nergy loss i ach bend if the ra us to the outside of the bend is 300 mm. FIGURE 10.34 Problem 10.39. Pump Flow 3-in Schedule 40 pipe