The open tank shown in Figure below. contains water at 20°C Problem and is being filled...
The open cylindrical tank in the figure contains water and is being filled as shown. Assume incompressible flow with pwater = 1000 kg/m^3. 1. (15 marks): The open cylindrical tank in the figure contains water and is being filled as shown. Assume incompressible flow, with water = 1000 kg/m3. a) Write the mass transport equation and note that the flow may not be steady, which implies that the rate of change of mass in the control volume needs not be...
A vertical cylindrical tank is being filled with water, while at the same time water is being drained as shown in Figure 1 below. Provide: Asketch of the analogous flow network using a capacitor symbol to indicate liquid a. volume storage. b. Let h liquid level height;t time; R 988.1(h)0 V 0.5+0.5cos(0.05t), the inlet flow rate; D 2.5, tank diameter; y 60; liquid specific weight; and ho 10, initial h Assume that the units are consistent and the exit pressure...
A cylindrical tank is being filled with water. The tank is initially empty but then water begins to flow into it at a rate of 62.00 kg/min. There is a small hole of radius r = 0.7000 cm at the bottom of the tank where water can escape. Because the flow rate of water leaving the hole is initially at a slower rate than water entering the tank, the water level rises. The average velocity of water leaving through the...
5 points Save Answer Water leaves the shown large open tank to the atmosphere through a short length section that consists of a sharp inlet and two sudden contraction fittings from d, to d2 and then from da to dz. Neglecting major losses determine the height h (m) needed to maintain a steady flow rate Q, when the pipe diameters are d = 5 cm, d2= 2 cm and d3= 1cm and the flow rate is Q=3 Us. h d,...
Chapter Om The L-shaped tank shown in the figure is filled with water and is open at the top. If d = 3.49 m, what is the total force exerted by the water (a) on face A and (b) on face B? (a) Number Units (b) Number Units
QS: (20 marks) Salt water flows from the tank A through a hole of diameter 25 mm as shown in Figure Q5. Initially (time t-0) tank A contains salt water with a specific gravity of 1.15 and the tank B contains pure water. Each tank has a diameter of 2 m and an initial depth of 3 m Determine the specific gravity of the salt water in the lower tank as a function of time, from 0 to when tank...
A tank, which is open to the atmosphere, is filled with water to a level h and allowed to drain through an orifice at the bottom, as shown in the figure below. The cross-sectional area of the tank is At and the cross-sectional area of the orifice is Ao. Assume that the cross-sectional area of the tank is much greater than the cross-sectional area of the orifice (Ar>>Ao) and that the exit losses are negligible. 4) Use Reynolds Transport Theorem...
Anaerobic water at 20 °C must be transported from one tank to an open container through a pipe with ID = 5.2 cm. Since N2 gas was used to make the water anaerobic, the plant decided to move the water by displacing it with N2 gas under pressure. The closed tank is connected to a gas tank that delivers a constant pressure of 40 psig at the tank gas phase. The exit pipe is 4.6 m above the tank exit...
A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 15.4 m below the water level. The rate of flow from the leak is found to be 3.00 x 10-3 m3/min. 1 (a) Determine the speed (in m/s) at which the water leaves the hole. 17.38 m/s (b) Determine the diameter of the hole (in mm). How is the flow rate related to the area of the hole...
A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 15.2 m below the water level. The rate of flow fron the leak is found to be 2.80 x 10-3 m3/min. (a) Determine the speed (in m/s) at which the water leaves the hole. m/s (b) Determine the diameter of the hole in mm). mm (c) What If? If the hole is 10.0 m above the ground and...