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 is 2 m.
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Apple juice at 20oC is siphoned from a large tank
using a constant-diameter (1.5 cm)...
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
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
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are...
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are negligible. a) Determine the flowrate from the tank; b) Determine the pressure at points 1, 2 and 3; c) Where is the critical point for cavitation? 2-in.-diameter hose 2 ft |(3) 3 ft 8 ft
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.
Question 2 A very large rainwater harvesting reservoir, Tank A, is situated at a height above...
Question 2 A very large rainwater harvesting reservoir, Tank A, is situated at a height above the ground. Water is siphoned out of the tank at a rate of th = 11kg/s into a second tank, Tank B, which is sitting on the ground. Water flows out of Tank B from an outlet situated at the bottom of the tank. The system is shown in Figure 1 Figure 1: 1. Deduce an expression for the maximum height that the water...
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 pressurized tank of water has a 9-cm-diameter orifice at the bottom, where water discharges to...
A pressurized tank of water has a 9-cm-diameter orifice at the bottom, where water discharges to the atmosphere. The water level is 2.5 m above the outlet. The tank air pressure above the water level is 250 kPa (absolute), while the atmospheric pressure is 100 kPa. Neglecting frictional effects, determine the initial discharge rate of water from the tank. -Air 250 kPa 2.5 m d cm The initial discharge rate of water from the tank is determined to be [...
(a) A large, open at the top, upright cylindrical tank contains fuel oil with a density...
(a) A large, open at the top, upright cylindrical tank contains fuel oil with a density of 0.890 x 103 kg/m². If the air pressure is 101.3 kPa, determine the absolute pressure (in Pa) in the fluid at a depth of 32.5 m. 283465x The absolute pressure at any point in the fluid is the sum of atmospheric pressure and the pressure due to the depth of the fluid. Did you remember to account for atmospheric pressure? Pa (b) Determine...
Question 8 At the bottom of a pressurized petroleum tank there is a 10 cm diameter...
Question 8
At the bottom of a pressurized petroleum tank there is a 10 cm
diameter hole through which petroleum is poured into the
atmosphere. Water level is 2.5m higher than the hole.
(Friction losses will be neglected.)
1)Calculate the initial flow of water discharged from the
tank.
2)What is the height of the petroleum after 10 seconds?
Density of petroleum = 850 kg/m3
Base diameter = 70 cm
Atmospheric pressure = 101325 Pa
Air pressure on the water surface...
Can I know full answer 2. Pressurized tank of water has a 10-cm-diameter orifice at the...
Can I know full answer
2. Pressurized tank of water has a 10-cm-diameter orifice at the bottom, where water discharges to the atmosphere. The water level is 3 m above the outlet. The tank air pressure above the water level is 300 kPa (absolute) while the atmospheric pressure is 100 kPa. Neglecting frictional effects, determine the initial discharge rate of water from the tank. Air 00 kPa 3 m 10 cm
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
Water is siphoned from the large tank shown below. Flow is steady and viscous effects are negligible. a) Determine the flowrate from the tank; b) Determine the pressure at points 1, 2 and 3; c) Where is the critical point for cavitation? 2-in.-diameter hose 2 ft |(3) 3 ft 8 ft
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.
Question 2 A very large rainwater harvesting reservoir, Tank A, is situated at a height above the ground. Water is siphoned out of the tank at a rate of th = 11kg/s into a second tank, Tank B, which is sitting on the ground. Water flows out of Tank B from an outlet situated at the bottom of the tank. The system is shown in Figure 1 Figure 1: 1. Deduce an expression for the maximum height that the water...
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 pressurized tank of water has a 9-cm-diameter orifice at the bottom, where water discharges to the atmosphere. The water level is 2.5 m above the outlet. The tank air pressure above the water level is 250 kPa (absolute), while the atmospheric pressure is 100 kPa. Neglecting frictional effects, determine the initial discharge rate of water from the tank. -Air 250 kPa 2.5 m d cm The initial discharge rate of water from the tank is determined to be [...
(a) A large, open at the top, upright cylindrical tank contains fuel oil with a density of 0.890 x 103 kg/m². If the air pressure is 101.3 kPa, determine the absolute pressure (in Pa) in the fluid at a depth of 32.5 m. 283465x The absolute pressure at any point in the fluid is the sum of atmospheric pressure and the pressure due to the depth of the fluid. Did you remember to account for atmospheric pressure? Pa (b) Determine...
Question 8
At the bottom of a pressurized petroleum tank there is a 10 cm
diameter hole through which petroleum is poured into the
atmosphere. Water level is 2.5m higher than the hole.
(Friction losses will be neglected.)
1)Calculate the initial flow of water discharged from the
tank.
2)What is the height of the petroleum after 10 seconds?
Density of petroleum = 850 kg/m3
Base diameter = 70 cm
Atmospheric pressure = 101325 Pa
Air pressure on the water surface...
Can I know full answer
2. Pressurized tank of water has a 10-cm-diameter orifice at the bottom, where water discharges to the atmosphere. The water level is 3 m above the outlet. The tank air pressure above the water level is 300 kPa (absolute) while the atmospheric pressure is 100 kPa. Neglecting frictional effects, determine the initial discharge rate of water from the tank. Air 00 kPa 3 m 10 cm
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