edged circular orifice 2 in. in diameter in the bottom. C for the orifier is 0.95....
7. A jet of liquid issues from a 30 mm diameter sharp-edged orifice located in the wall of a 1 m diameter cylindrical tank. The orifice is located near the bottom of the tank. (a) Show that the variation of liquid level with time (1) in the tank is given by: 2 - [h12 - 112] C. 28 | where: h = Depth of liquid above the orifice initially h2 = Depth of liquid above the orifice at the end...
A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edged 10-cm-diameter orifice. The tank water surface is open to the atmosphere, and the orifice drains to the atmosphere through a 100-m-long pipe. The friction coefficient of the pipe is taken to be 0.015 and the effect of the kinetic energy correction factor can be neglected. In order to drain the tank faster, a pump is installed near the tank exit. Water tank Pump 6...
A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edged 10-cm-diameter orifice. The tank water surface is open to the atmosphere, and the orifice drains to the atmosphere through a 100-m-long pipe. The friction coefficient of the pipe is taken to be 0.015 and the effect of the kinetic energy correction factor can be neglected. In order to drain the tank faster, a pump is installed near the tank exit. Water tank Pump Required...
A tank has an upper cylindrical portion of 5m diameter and 4m high with hemispherical base. Find the time required to empty it through an orifice of 200mm diameter at its bottom, if the tank is initially full of water. Take Cd=0.6 for the orifice.
2. Find the time taken by water for completely emptying to tank. Take C 0.6 12 ft 10 ft Water 4-diameter, sharp-edged orifice with C 0.60
1. A circular tank of diameter 4 m contains water up to a height of 5 m. The tank is provided with an orifice of diameter 0.5 m at the bottom. Find the time taken by water (i) to fall from 5 m to 2 m (ii) for completely emptying to tank. Take C-0.6
A vertical storage tank with a hemispherical bottom and a cylindrical shell of 2 m. inside diameter and 4 m. high is filled with water. A sharp-edge orifice 150 mm diameter with C = 0.62 is located at the lowest point. 26. Determine the time to empty the cylindrical part of the tank through the orifice. A. 134.04 sec C. 152.11 sec B. 145.6 sec D. 160 sec 27. Determine the time to empty the hemispherical tank only through the...
6. A tank 20 ft long and 10 ft deep is 8 ft wide at the bottom and 18 ft wide at the top. In the bottom is an orifice having an area of 24 84 0.61? in. and å coefficient of discharge of 0.60. If the tank is full at the begin. ning, how long will it take to lower the water surface 6 ft? T
SITUATIONAL PROBLEM A vertical storage tank with a hemispherical bottom and a cylindrical shell of 2 m. inside diameter and 4 m. high is filled with water. A sharp-edge orifice 150 mm diameter with C = 0.62 is located at the lowest point. 26. Determine the time to empty the cylindrical part of the tank through the orifice. A. 134.04 sec C. 152.11 sec B. 145.6 sec D. 160 sec 27. Determine the time to empty the hemispherical tank only...
1. A 4-ft diameter open cylindrical tank, 6 ft high, is filled with water. The tank is tilted to a position such that its water surface will cut the diameter of the base. Calculate the volume of water left in the tank. a. 16 cu. ft c. 13 cu. ft b. 18 cu.ft d. 14 cu. ft Americana A Crans-