Fluid mechanics
Apple juice at 20c is siphoned from using a constant diameter hose the end of the siphon is 1m below the bottom of the tank. Calculate the height of the hill over which the hose maybe siphoned without cavitation. Assume properties of the apple juice as properties of water.the atmospheric pressure is 101.3 kpa and the height of the apple juice in the tank is 2 m
Homework Answers
1) Apple juice at 20oC is siphoned from a large tank using a constant-diameter (1.5 cm)...
1) Apple juice at 20oC is siphoned from a large tank using a constant-diameter (1.5 cm) hose. The end of the siphon is 1 m below the bottom of the tank. Calculate the volumetric flow rate of juice in the hose and the height of the hill over which the hose may be siphoned without cavitation. Assume properties of the apple juice are the same as water. The atmospheric pressure is 101.3 kPa. Height of the juice in the tank...
Water is siphoned from a large tank and discharges into the atmosphere through a 2-in.-diameter tube...
Water is siphoned from a large tank and discharges into the
atmosphere through a 2-in.-diameter tube as shown in the figure
below. The end of the tube is 3 ft below the tank bottom, and
viscous effects are negligible. Determine the volume flowrate from
the tank. Determine the maximum height, H, over which the water can
be siphoned without cavitation occurring. Atmospheric pressure is
14.7 psia, and the water vapor pressure is 0.26 psia
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig....
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig. P3. Determine (a) the flowrate from the tank, and (b) the pressure at point (1), (2) and (3). (c) The current maximum height of the hose is 2 ft above the water surface. What can the maximum height be without having any cavitation. Take the water temperature to be 60°F.
7. A person needs to siphon ethanol from the IBC tank shown in the figure at...
7. A person needs to siphon ethanol from the IBC tank shown in the figure at 40 °C using a hose with constant diameter of 0.5 cm. What is the required h (see figure below) to siphon the ethanol without being worried about cavitation (see Module 1 lecture 1 slides on vapour pressure and cavitation)? (4 marks) 100 90 100 cm 50 30 cm 40 3 30 10 304 Temperature [K] 288 320 336 Vapour pressure of ethanol at different...
7.24 A pump is used to pressurize air in a tank to 300 kPa abs. e tank has a diameter of 2 m and a height of 4 m. Th...
7.24 A pump is used to pressurize air in a tank to 300 kPa abs. e tank has a diameter of 2 m and a height of 4 m. The initial level of water in the tank is 1 m, and the initial pressure at the tank water surface is 0 kPa gage. The atmospheric pressure is 100 kPa. The pump provides a constant head of 50 m. The water is drawn from a reservoir that is 4 m below...
A fluid of density 1300 kg/m3 flows out through a 3 meter diameter pipe without friction at a rat...
A fluid of density 1300 kg/m3 flows out through a 3 meter diameter pipe without friction at a rate of 1500 L/s. Find the velocity of the fluid as it flows out of the 3 meter diameter pipe. Note that the 'speed' sensor does not give enough significant figures... use the sensor, to prove your calculations (and not the opposite!) Submit Answer Tries 0/99 Calculate the velocity of the fluid if the pipe constricts to a diameter of 1 meter....
fluid mechanics include all equations and steps please A 1-in diameter (I.D.) plastic tube is used...
fluid mechanics
include all equations and steps please
A 1-in diameter (I.D.) plastic tube is used to siphon water from the large tank as shown. The total tube length is 20 ft. Assume steady, inviscid, and incompressible flow. (a) Determine the flow rate (ft/s) and the minimum pressure (psi) in the tube. (b) If a 1/2-in. diameter (1.D.) nozzle is attached at the end of tube. Determine the flow rate (ft /s), the minimum pressure (psi), and the maximum pressure...
pls show ur work Assignment 4 Water (y=9.81 kN/m", vapor pressure = 4.215 kPa (abs)) flows...
pls
show ur work
Assignment 4 Water (y=9.81 kN/m", vapor pressure = 4.215 kPa (abs)) flows in a series pipeline system from a lower reservoir to an upper closed tank as shown in Figure below. The system require to deliver of 55 litres/s of water. Assume atmospheric pressure Patm = 101.3 kPa. Closed tank Ko Pressure 30kPa (abs) Ks 33 m R2 Pump K3 Suction pipe 22 200 0.0112 Length (m) K4 Diameter (mm) Friction factor Discharge pipe 50 150...
(3 points) A tank of diameter D is filled with water up to a height h...
(3 points) A tank of diameter D is filled with water up to a height h above the bottom of the tank (Figure 3). At the bottom of the tank is a hole of diameter d. Assume that the water flows out of the hole with a laminar flow and that the difference in atmospheric pressure between the top and the bottom of the tank is negligible. Figure 3: A tank draining (c) If you no longer assume that the...
Water is siphoned from a large tank and discharges into the
atmosphere through a 2-in.-diameter tube as shown in the figure
below. The end of the tube is 3 ft below the tank bottom, and
viscous effects are negligible. Determine the volume flowrate from
the tank. Determine the maximum height, H, over which the water can
be siphoned without cavitation occurring. Atmospheric pressure is
14.7 psia, and the water vapor pressure is 0.26 psia
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig. P3. Determine (a) the flowrate from the tank, and (b) the pressure at point (1), (2) and (3). (c) The current maximum height of the hose is 2 ft above the water surface. What can the maximum height be without having any cavitation. Take the water temperature to be 60°F.
7. A person needs to siphon ethanol from the IBC tank shown in the figure at 40 °C using a hose with constant diameter of 0.5 cm. What is the required h (see figure below) to siphon the ethanol without being worried about cavitation (see Module 1 lecture 1 slides on vapour pressure and cavitation)? (4 marks) 100 90 100 cm 50 30 cm 40 3 30 10 304 Temperature [K] 288 320 336 Vapour pressure of ethanol at different...
7.24 A pump is used to pressurize air in a tank to 300 kPa abs. e tank has a diameter of 2 m and a height of 4 m. The initial level of water in the tank is 1 m, and the initial pressure at the tank water surface is 0 kPa gage. The atmospheric pressure is 100 kPa. The pump provides a constant head of 50 m. The water is drawn from a reservoir that is 4 m below...
A fluid of density 1300 kg/m3 flows out through a 3 meter diameter pipe without friction at a rate of 1500 L/s. Find the velocity of the fluid as it flows out of the 3 meter diameter pipe. Note that the 'speed' sensor does not give enough significant figures... use the sensor, to prove your calculations (and not the opposite!) Submit Answer Tries 0/99 Calculate the velocity of the fluid if the pipe constricts to a diameter of 1 meter....
fluid mechanics
include all equations and steps please
A 1-in diameter (I.D.) plastic tube is used to siphon water from the large tank as shown. The total tube length is 20 ft. Assume steady, inviscid, and incompressible flow. (a) Determine the flow rate (ft/s) and the minimum pressure (psi) in the tube. (b) If a 1/2-in. diameter (1.D.) nozzle is attached at the end of tube. Determine the flow rate (ft /s), the minimum pressure (psi), and the maximum pressure...
pls
show ur work
Assignment 4 Water (y=9.81 kN/m", vapor pressure = 4.215 kPa (abs)) flows in a series pipeline system from a lower reservoir to an upper closed tank as shown in Figure below. The system require to deliver of 55 litres/s of water. Assume atmospheric pressure Patm = 101.3 kPa. Closed tank Ko Pressure 30kPa (abs) Ks 33 m R2 Pump K3 Suction pipe 22 200 0.0112 Length (m) K4 Diameter (mm) Friction factor Discharge pipe 50 150...
(3 points) A tank of diameter D is filled with water up to a height h above the bottom of the tank (Figure 3). At the bottom of the tank is a hole of diameter d. Assume that the water flows out of the hole with a laminar flow and that the difference in atmospheric pressure between the top and the bottom of the tank is negligible. Figure 3: A tank draining (c) If you no longer assume that the...
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