Water at 20°C is transported for 500 m in a 4-cm-diameter wrought iron horizontal pipe with...
Fluid Mechanics Water at 20°Cis transported for 500 m in a 4-cm-diameter wrought iron horizontal pipe with a flow rate of 0003 mls. Calculate the pressure drop over the 500-m length of pipe. TABLE 10.4 Equivalent Sand-Grain Roughness, (k.), for Various Pipe Materials Boundary Material Glass, plastic Copper or brass tubing Wrought iron, steel Millimeters 0.00 (smooth) 0.0015 0.046 K, Inches 0.00 (smooth) 6 X 103 0.002
please show clear steps solution. Prob-2 If the flow of 0.10 m/s of water is to be maintained in the system shown, what power must be added to the water by the pump? The pipe is made of steel and is 20 cm in diameter. Use table 10.4 and AS for ks ? and ? Elevation = 13 m Elevation = 10 m Water T-10°C 40 m 40 m Table 104 EQUIVALENT SAND-GRAIN ROUGHNESS, FOR VARIOUS PIPE MATERIALS Boundary Material...
please show clear steps solution. Prob-1 Points A and B are 1 km apart along a 20 cm new steel pipe. Point Bis 20 m higher than A. With a flow from A to B of 0.03 m/s of crude oil (S 0.82) at 10°C (1 = 102N s/m'), What pressure must be maintained at A if the pressure at B is to be 400 kPa? Table 104 EQUIVALENT SAND-GRAIN ROUGHNESS, FOR VARIOUS PIPE MATERIALS Boundary Material M A. Inches...
(100 points) Water at 25°C is pumped at a rate of 0.075m'/s from a reservoir 20m above a pump to a free discharge (this means discharged to atmosphere) 35m above the pump. The pressure on the intake side of the pump is 150kPa and the pressure on the discharge side of the pump is 450kPa. The pipe between the reservoir and the pump is 3 meters of 5in diameter cast iron. From the pump to the discharge the pipe is...
(100 points) Water at 25°C is pumped at a rate of 0.075m's from a reservoir 20m above a pump to a free 1. discharge (this means discharged to atmosphere) 35m above the pump. The pressure on the intake side of the pump is 150kPa and the pressure on the discharge side of the pump is 450kPa. The pipe between the reservoir and the pump is 3 meters of Sin diameter cast iron. From the pump to the discharge the pipe...
For the three connected reservoirs with the given information, calculate the water velocity in each pipe, neglecting the minor losses Patm Zв 850 f. =700 ft. d 1.1 ft Patm =800 ft. d 1 ft f=0.03 atm in all pipes ZA838 ft. d 1.2 ft =600 ft =805 ft. Datum F (velocity, ft/s x diameter. (Vd) for water at 6 Valu 8000 8 10 0.1 0.2 0.4 0.6 0.8 1 40 60 80 100 200 400 600 800 1000 2...
Problem 3 (30): Steam at Too,1 340 °C flows in a cast iron pipe [k- 80 W/m.°C] whose inner and outer diameter are Di 6 cm and D2 -8 cm, respectively. The pipe is covered with a 4-cm thick glass wool insulation [k-0.05 W/ m°C]. Heat is lost to the surroundings at Too,2 - 21°C by natural convection and radiation, with a combined heat transfer coefficient of h- 18 W/m2 °C. Taking the heat transfer coefficient inside the pipe to...
Water at 50 °F is pumped from pond 1 to pond 2. Calculate the volumetric flow rate and pump power for the following given information Patm h Opump Patm ... Total pipe length: /=500 ft Pipe diameter: d=8 in Pipe material: new cast iron Elbow type: flanged, 90° regular Valve type: globe, flanged, fully open Inlet and Exit type: sudden, Fig. 6.22 Pump head: hp 250 ft Pump efficiency: np=0.85 h-200 ft F (velocity, ft/s x diameter. (Vd) for water...
Water at 50 °Fis circulated from a large tank, through a filter, and back to the tank Calculate the volumetric flow rate through the filter for the following given information: Patm V.. Valve Pump Filter Pump power: W=200 lbf.ft/s Pump efficiency: 1p-0.9 Total pipe length: /= 200 ft Pipe diameter: d=0.1 ft Pipe surface relative roughness: /d=0.01 Elbow loss factor (each): Kelbow=1.5 Valve loss factor: Kvalve-6 Inlet and Exit type: sudden, Fig. 6.22 Filter loss factor Kriter=12 F (velocity, ft/s...
Water at 15°C (ρ = 999.1 kg/m3and μ = 1.138 × 10−3 kg/m·s) is flowing steadily in a 34-m-long and 6-cm-diameter horizontal pipe made of stainless steel at a rate of 10 L/s. Determine the pressure drop, the head loss, and the pumping power requirement to overcome this pressure drop. The roughness of stainless steel is 0.002 mm.Determine the following:A)The pressure drop in _______ kPa.B)The head loss in _______ m.C)The pumping power requirement in _______ kW.