Water flows into a storage tank of cross-sectional area 4 squared ft, and flows out by...
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Water flows into a storage tank of cross-sectional area 4 squared
ft, and flows out by...
The oil of density p in a storage tank with cross-sectional area A, is at a...
The oil of density p in a storage tank with cross-sectional area A, is at a depth h. The tank is being filled with oil through two inlet pipes with velocities V, and V, and cross- sectional areas A, and A2 . Determine the rate at which the level of oil rises in the tank, dh i.e. find di
The CH20 (specific gravity 0.82) is collected in a sealed storage tank at -20°C as shown...
The CH20 (specific gravity 0.82) is collected in a sealed storage tank at -20°C as shown on the right. A Bourdon gauge is mounted at the bottom of the tank. The headspace of the tank is filled with N2 gas at a constant pressure of 20 psia, and the atmospheric pressure CH,00) outside the tank is 1 atm. If the cross- sectional area of the tank is 25.0 ft2 and the Bourdon gauge gives a gauge pressure (PBG, in psig),...
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe...
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe with a maximum velocity (turbulent profile) of 0.3 meters/sec. The pipe then goes through an expansion, to where it is then flowing in a 0.5 meter-diameter pipe, and the flow regime has changed from turbulent to laminar. In the second section of pipe, calculate the velocity as (a) block flow profile (Vavg), and (b) maximum velocity in laminar flow profile? HINT: you will need...
A water intake at a pump storage reservoir (the figure) has a cross-sectional area of 0.642...
A water intake at a pump storage reservoir (the figure) has a cross-sectional area of 0.642 m. The water flows in at a speed of 0.480 m/s. At the generator building, at distance D = 119 m below the intake point, the cross-sectional area is smaller than at the intake and the water flows out at 9.67 m/s. What is the difference in pressure between inlet and outlet? Revivir Generator building Outlet Number units
4 Water enters a circular, constant area tank through a horizontal pipe at a volume flowrate of Q- 0.35 ft/sec. Water e...
4 Water enters a circular, constant area tank through a horizontal pipe at a volume flowrate of Q- 0.35 ft/sec. Water exits the tank through a 2 inch diameter hole with exit velocity Vexi(2gh) where h is the vertical distance from the exit hole to the water surface a) Draw a neat, detailed control volume directly on the drawing of the water tank below. Carefully identify all control surfaces b) Develop a differential equation that can be solved for h...
1. As a stream of water flows, the cross-sectional area of the stream becomes smaller. If...
1. As a stream of water flows, the cross-sectional area of the stream becomes smaller. If it initially moves with a speed of 1.8 m/s and then the cross-sectional area decreases to one-fourth of the original area, what is the water speed in this narrowed part of the stream?____ m/s 2. (As water falls, its speed increases, due to the acceleration of gravity. If you make a steady stream of water flow from a faucet, you will see that the...
Question 4 (9 points) A storage tank has a diameter of 20 ftand a height off...
Question 4 (9 points) A storage tank has a diameter of 20 ftand a height off 10 ft. The output volumetric flow from this tank is given by out)2h(twhere h(t) is the height of liquid in the tank. At a particular time, the tank is at steady state with an input flow of 10 ft/min. dia Vin.s (a) Develop a dynamic model of the process. (b) Derive the transfer fanction H(s)/Qie(s) for the tank system. H' and Q are deviation...
Water flows out of an inverted conical tank with circular orifice Solve using MATLAB. Thank you!!...
Water flows out of an inverted conical tank with circular
orifice
Solve using MATLAB. Thank you!!
Water flows out of an inverted conical talk with circular orifice at the rate of 4. vy A(y) where r is the orifice radius, y is the height of the water above the orifice, and Avy) is the area of the cross section of the tank at the water level. Suppose r - .1 ft g =-32.17 ft/s, and the tank has an initial...
Water flows steadily from an open tank as shown in the figure. The elevation of...
Water flows steadily from an open tank as shown in the figure.
The elevation of
point 1 is H = 13 m ,
and the elevation of points 2 and 3 is h = 2 m .
The cross-sectional area at point 2 is 0.00069 m 2
; at point 3, where the water is
discharged, it is 0.00158 m 2 . The
cross-sectional area of the tank is very large compared with the
cross-sectional area of the pipe. Find...
IV.(6+4+2pts) Consider a cylindrical tank with the base area 100 cm2. The tank is initially fille...
IV.(6+4+2pts) Consider a cylindrical tank with the base area 100 cm2. The tank is initially filled with 2000 cc of water. If pure water enters at 10 cc/min and it flows out at the rate h (t) cc/min. Here, h(t) denotes the height of water in the tank at time t. Let V(t) be the volume of water in the tank at time t. (Note 1 cc 1cm3) (a) Set up the initial value problem of the ODE for V(t)...
The oil of density p in a storage tank with cross-sectional area A, is at a depth h. The tank is being filled with oil through two inlet pipes with velocities V, and V, and cross- sectional areas A, and A2 . Determine the rate at which the level of oil rises in the tank, dh i.e. find di
The CH20 (specific gravity 0.82) is collected in a sealed storage tank at -20°C as shown on the right. A Bourdon gauge is mounted at the bottom of the tank. The headspace of the tank is filled with N2 gas at a constant pressure of 20 psia, and the atmospheric pressure CH,00) outside the tank is 1 atm. If the cross- sectional area of the tank is 25.0 ft2 and the Bourdon gauge gives a gauge pressure (PBG, in psig),...
L 2. Steady statemass balance: Water is flowing at steady state in a 0.1 meter-diameter pipe with a maximum velocity (turbulent profile) of 0.3 meters/sec. The pipe then goes through an expansion, to where it is then flowing in a 0.5 meter-diameter pipe, and the flow regime has changed from turbulent to laminar. In the second section of pipe, calculate the velocity as (a) block flow profile (Vavg), and (b) maximum velocity in laminar flow profile? HINT: you will need...
A water intake at a pump storage reservoir (the figure) has a cross-sectional area of 0.642 m. The water flows in at a speed of 0.480 m/s. At the generator building, at distance D = 119 m below the intake point, the cross-sectional area is smaller than at the intake and the water flows out at 9.67 m/s. What is the difference in pressure between inlet and outlet? Revivir Generator building Outlet Number units
4 Water enters a circular, constant area tank through a horizontal pipe at a volume flowrate of Q- 0.35 ft/sec. Water exits the tank through a 2 inch diameter hole with exit velocity Vexi(2gh) where h is the vertical distance from the exit hole to the water surface a) Draw a neat, detailed control volume directly on the drawing of the water tank below. Carefully identify all control surfaces b) Develop a differential equation that can be solved for h...
Question 4 (9 points) A storage tank has a diameter of 20 ftand a height off 10 ft. The output volumetric flow from this tank is given by out)2h(twhere h(t) is the height of liquid in the tank. At a particular time, the tank is at steady state with an input flow of 10 ft/min. dia Vin.s (a) Develop a dynamic model of the process. (b) Derive the transfer fanction H(s)/Qie(s) for the tank system. H' and Q are deviation...
Water flows out of an inverted conical tank with circular
orifice
Solve using MATLAB. Thank you!!
Water flows out of an inverted conical talk with circular orifice at the rate of 4. vy A(y) where r is the orifice radius, y is the height of the water above the orifice, and Avy) is the area of the cross section of the tank at the water level. Suppose r - .1 ft g =-32.17 ft/s, and the tank has an initial...
Water flows steadily from an open tank as shown in the figure.
The elevation of
point 1 is H = 13 m ,
and the elevation of points 2 and 3 is h = 2 m .
The cross-sectional area at point 2 is 0.00069 m 2
; at point 3, where the water is
discharged, it is 0.00158 m 2 . The
cross-sectional area of the tank is very large compared with the
cross-sectional area of the pipe. Find...
IV.(6+4+2pts) Consider a cylindrical tank with the base area 100 cm2. The tank is initially filled with 2000 cc of water. If pure water enters at 10 cc/min and it flows out at the rate h (t) cc/min. Here, h(t) denotes the height of water in the tank at time t. Let V(t) be the volume of water in the tank at time t. (Note 1 cc 1cm3) (a) Set up the initial value problem of the ODE for V(t)...
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