3. Water (70°F) flows through a nominal 4-in, schedule 40, PVC pipe at the rate of...
Problem 10.032 X Incorrect. Water (70°F) flows through a nominal 4 in., schedule 40, PVC pipe at the rate of 3.0 cfs. What is the resistance coefficient f? x f= Click here to access the appendices. the tolerance is +/-9% Open Show Work Click if you would like to Show Work for this question: LINK TO TEXT By accessing this Question Assistance, you will learn while you earn points based on the Point Potential Policy set by your instructor. Question...
Determine the heat loss of seawater flowing through a 1 inch schedule 40 PVC pipe. The inner diameter of the pipe is 1 inch and the outer diameter is 1.049 inches. The temperature of the water is 50 degrees F and the outside air is 72 degrees F. The seawater is flowing at 3 GPM. The thermal conductivity of the PVC pipe is 0.20 [W/(mK)]. The heat transfer coefficient between the water and the pipe is 75 [W/m2K]. Take the same...
Question 4: Water at 20C flows through a inch schedule 40 steel pipe at a mean velocity of 0.25m/s. If the flow is fully developed and the pipe considered isothermal, find a) The heat transfer coefficient b) The friction factor.
Determine the friction loss, F, for the cases below: a) Water flows through a 30 m, 4-in Schedule 40 pipe at 100 L/min. Table 1: Schedule 40, commercial steel pipe Pipe size (inch) OD (inch) ID (inch) 1.315 1.049 2 2.375 2.067 4 4.500 4.026 6 6.625 6.065 1 b) Water flows through a 10 cm PVC pipeline at 1 m/s
1) Water at "standard" conditions flows from the tank through a 6" schedule 40 pipe of length Land drains into an open reservoir at a rate of 500 gal min1. The water in the tank is h 10 m above the open end of the pipe. With all other conditions the same, we replace the 6" pipe with an 8" pipe. What is the new flowrate, Q lgal min']? (assume entrance losses and kinetic energy are negligible.) - -0 Gven...
(b) Water flows under gravity between two reservoirs through a pipe of length 5000m. The diameter of the pipe is 0.2 m and the roughness size is 0.04 mm. The water levels in the two reservoirs are maintained with a difference of 50 m. Determine the discharge through the pipe. Neglect all minor losses. Use the attached Moody diagram for estimation of friction factor. (10 marks) (c) In (b), now include entry loss at the upper reservoir with loss coefficient...
4. Water at 50 deg C is flowing at 0.8m/s through a copper pipe 3cm in diameter and 60m long a. What is the Reynolds number? b. Is the flow most likely laminar, turbulent, or in- between? the Moody diagram? under these conditions? c. What is the resistance coefficient f for this flow from d. What is the head loss in this section of copper pipe
1. A ¾ inch (nominal), Schedule 40, mild steel pipe carries 40 psia steam through a room having an air temperature of 80°F. The pipe is covered with a 0.125 ft thick layer of fiberglass insulation having a thermal conductivity of 0.037 Btu/(h ft ‘F). The hi value on the steam side of the pipe is 1000 Btu/h ft2 °F. The ho value on the outside of the insulation is 2.0 Btu/(h ft2 ’F). For the mild steel, k=26Btu/(ft H...
A 1-mile long 12-inch diameter asphalt dipped cast iron pipe (e = 0.00085 ft) conveys 60°F water at 3 cfs. Determine (a) friction factor f using the Moody Diagram, (b) f using the Colebrook equation, (c) head loss over the 1 mile distance, (d) slope of the EGL. Problem 2 A 1-mile long 12-inch diameter asphalt dipped cast iron pipe (e = 0.00085 ft) conveys 60℉ water at 3 cfs Determine (a) friction factor fusing the Moody Diagram, (b) fusing...
Water (70°F) is draining from a tank through a galvanized iron pipe. The pipe length is L - 12 ft, the tank depth isH = 8 ft, and the pipe is 1-in. NPS schedule 40 (ID 049 in.). The entrance to the pipe is sharp /H Pipe of dimne 12f ㄥ 2. We were unable to transcribe this image