ACCORDING TO THE DATA AND DIAGRAM ARE GIVEN IN THE QUESTION,
(c) The diagram below shows a tank of oil with one side open to the atmosphere...
Oil with a specific gravity of 0.80 forms a layer 0.90m deep in an open tank that is otherwise filled with water. The total depth of water and oil is 3m. What is the gage pressure at the bottom of the tank?
Show your work [14 Marks] 23. Oil has a Specific gravity 0.75 is flowing through a siphon as shown in the diagram calculate the following: a) The velocity of the oil at exit (using Bernoulli's) b) The volumetric flow rate of oil from the tank c The flow velocity in the 60 mm diameter section of the pipe d) The pressure at point B 3.0 m se-0.75 60 mm Diameter 100m 30 mm Diameter Show your work [14 Marks] 23....
6 The venture meter shown in Figure below carries oil (sg 0.90). The specific gravity of the gage fluid in the manometer is 1.40. a. Find the pressure difference between points A and B h. Find the velocity at pointA c. Calculate the volume flow rate of oil. 8 Marks [8 Marks 17 Marks] 75-mm How A. 200- nside 0.50 m
4. A tank is filled with incompressible oil to a depth of (h) 6.43 m open tank The tank is being drained via a horizontal pipe that is attached at a height of (h2) 0.789 m above the tank bottom. Oil is flowing out of the tank into the pipe at a rate of 2.34 x 10 m'/s, but the tank is so large that the descent speed of the oil level at the top is negligible (0) The gauge...
A tank in a room at 19 degree C is initially open to the atmosphere on a day when the barometric pressure is 102 kPa. A block of dry ice (solid CO_2) with a mass of 15.7 kg is dropped into the tank, which is then sealed. The reading on the tank pressure gauge initially rises very quickly, then much more slowly, eventually reaching a value of 3.27 MPa. Assume T_final = 19 degree C. How many moles of air...
A tank is filled with incompressible oil to a depth of (h_1) 6.43 m. The tank is being drained via a horizontal pipe (radius 1.92 cm), attached at a height of (h-2) 0.789 m above the tank bottom. Oil is flowing out through the pipe at a rate of 2.34 times 10^-3 m^3/s, but the tank is so large that the descent speed of the oil level at the top is negligible (almostequalto 0). The gauge pressure in the drain...
Question 1: (30 points) In the below figure, oil is stored in a storage tank which is equipped with a gauge at the bottom. The air pressure above the surface of the oil is 180 kPa absolute. The density of oil is 881 kg/m². As shown, the gauge reads 5 bar of pressure at the bottom of the tank. Calculate the height of the oil inside the tank? Heighth Oil Given: g = 9.81 m/s2
Question Al A pipeline carrying heavy oil with a specific gravity of SGo-0.8 and a tank containing slightly compressed air are connected through a manometer filled with mercury, SGM 13.6 and a reservoir as shown in Fig. 1. The ratio of reservoir diameter D to pipe diameter d is D/d-2 Air ho Dill Mercury Figure 1: Manometer connecting pipeline and air tank. Drawing not to scale. The oil-mercury interface is at height ho-50cm below the centre of the pipeline, the...
An open tank has a vertical partition and on one side contains gasoline with a density p-580 kg/m at a depth of 4.6 m, as shown in the figure below. A rectangular gate that is 4.6 m high and 2 m wide and hinged at one end is located in the partition. Water is slowly added to the empty side of the tank. At what depth, h, will the gate start to open? Assumeh 46 m. Partition Concepts: The pressure...
Hello it's intrumentation courses please can help all dose question thanks. 5: In an open roof tank, the level transmitter side connected to the tank is: a: The high pressure side b: The low pressure side c: Either side can be connected to the tank 3: In an open roof water tank, the minimum water level is located 5 inches above the level transmitter. The maximum water level is located 50 inches above the level transmitter. The specific gravity of...