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7. A 2 inch diameter hose shown in the figure below can withstand a maximum pressure...
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without...
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without rupturing. Determine the maximum length, 1, allowed if the friction factor is 0.022 and the flowrate is 0.020 f/s. Neglect minor losses Nozzle tip diameter - 0.30 in. y = 62.2 lb/ft3 D-0.50 in. P2 = 0 Water 10 ft 3 ft Pump
The pressure at section (2) shown in the figure below is not to fall below 65...
The pressure at section (2) shown in the figure below is not to fall below 65 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height, h, of the water tank under the assumption that (a) minor losses are negligible, (b) minor losses are not negligible. 10ft All pipe is 6-n.-diameter plastic ElD, flanged fittings 4ft Branch lin (21 Main line 600 ft with 15 90...
The pressure at section (2) shown in the figure is not to fall below 50 psi...
The pressure at section (2) shown in the figure is not to fall below 50 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height h of the water tank (note: minor losses need to be considered). 10 ft h All pipe is 6-in.-diameter plastic (€/D = 0), flanged fittings 6 ft Branch line (2) Main 1 line 2000 ft 1000 ft with 10 90-degree elbows...
Chapter 08, Problem 066 The pressure at section (2) shown in the fiqure below is not...
Chapter 08, Problem 066 The pressure at section (2) shown in the fiqure below is not to fall below 65 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height, h, of the water tank under the assumption that (a) minor losses are negligible, (b) minor losses are not negligible. 8ft All pipe is 6-in.-diameter plastic (EID 0), flanged fittings Branch line 7ft (2) Main line...
lunzontal pipe and pump system in the following figure discharges 0.01583 m3/s. The gage pressure iust...
lunzontal pipe and pump system in the following figure discharges 0.01583 m3/s. The gage pressure iust before the pressure is 400 The m/s2 losses between 20°C water at 57 m3/h 0 kPa and just after the pump the gage a. The pump inlet diameter is 9 cm and the outlet diameter is 3 em. Let g-9.81 pump is 12 o Pwater9 kg/m, Hwate0.001002 kgm-s) and Pat the two pressure points and the pump. But consider frictional losses at the 9-cm...
8-C) As shown below water is pumped and sprayed through a nozzle into the atmosphere at 20 m/s at...
8-C) As shown below water is pumped and sprayed through a nozzle into the atmosphere at 20 m/s at an elevation 10 m above the reservoir surface. The mass flow rate is 40 kg/s and the volumetric flow rate is 0.040 m3/s. The large diameter inlet pipe total length is 50 m. The pump effidency is 65%. The longer smaller diameter pipe leaving the pump is 200 m in total length. The pipes have different diameters as indicated below. The...
please clearly indicate answer(s) 1. As shown in the figure, using a 6-m-long, 100 mm diameter...
please clearly indicate answer(s)
1. As shown in the figure, using a 6-m-long, 100 mm diameter pipe and assuming a friction factor f-0.02, investigate the likelhood of cavitation if h-4 m and h = 3m Water temperature is 25 degrees Centigrade, 5101325 KP kinematic viscosity =156 m2/sec, flow velocity = 4 m/sec, neglect minor losses using 2. At the deign flow rate read the pump characteristics if the 6 in impeller is used (power, efficiency, head) 3. If the angular...
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without rupturing. Determine the maximum length, 1, allowed if the friction factor is 0.022 and the flowrate is 0.020 f/s. Neglect minor losses Nozzle tip diameter - 0.30 in. y = 62.2 lb/ft3 D-0.50 in. P2 = 0 Water 10 ft 3 ft Pump
The pressure at section (2) shown in the figure below is not to fall below 65 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height, h, of the water tank under the assumption that (a) minor losses are negligible, (b) minor losses are not negligible. 10ft All pipe is 6-n.-diameter plastic ElD, flanged fittings 4ft Branch lin (21 Main line 600 ft with 15 90...
The pressure at section (2) shown in the figure is not to fall below 50 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height h of the water tank (note: minor losses need to be considered). 10 ft h All pipe is 6-in.-diameter plastic (€/D = 0), flanged fittings 6 ft Branch line (2) Main 1 line 2000 ft 1000 ft with 10 90-degree elbows...
Chapter 08, Problem 066 The pressure at section (2) shown in the fiqure below is not to fall below 65 psi when the flowrate from the tank varies from 0 to 1.0 cfs and the branch line is shut off. Determine the minimum height, h, of the water tank under the assumption that (a) minor losses are negligible, (b) minor losses are not negligible. 8ft All pipe is 6-in.-diameter plastic (EID 0), flanged fittings Branch line 7ft (2) Main line...
lunzontal pipe and pump system in the following figure discharges 0.01583 m3/s. The gage pressure iust before the pressure is 400 The m/s2 losses between 20°C water at 57 m3/h 0 kPa and just after the pump the gage a. The pump inlet diameter is 9 cm and the outlet diameter is 3 em. Let g-9.81 pump is 12 o Pwater9 kg/m, Hwate0.001002 kgm-s) and Pat the two pressure points and the pump. But consider frictional losses at the 9-cm...
8-C) As shown below water is pumped and sprayed through a nozzle into the atmosphere at 20 m/s at an elevation 10 m above the reservoir surface. The mass flow rate is 40 kg/s and the volumetric flow rate is 0.040 m3/s. The large diameter inlet pipe total length is 50 m. The pump effidency is 65%. The longer smaller diameter pipe leaving the pump is 200 m in total length. The pipes have different diameters as indicated below. The...
please clearly indicate answer(s)
1. As shown in the figure, using a 6-m-long, 100 mm diameter pipe and assuming a friction factor f-0.02, investigate the likelhood of cavitation if h-4 m and h = 3m Water temperature is 25 degrees Centigrade, 5101325 KP kinematic viscosity =156 m2/sec, flow velocity = 4 m/sec, neglect minor losses using 2. At the deign flow rate read the pump characteristics if the 6 in impeller is used (power, efficiency, head) 3. If the angular...
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