1. For the system shown below, oil (S.G. = 0.75) flows through a contracting pipe, and...
4-For the manometer shown in the Fig. below contains oil and water.For the column heights indicated what is the pressur differential between pipes A and B. CDI water water 650) 20 10 Glycerin S.G-1.26 oil o-o.as S.G 0.85 Dimensions in cm S-The inverted U-tube manometer contains oil S.G.-0.9and water. The pressure differential between A and B, pA-PB is-5kPa Determine the differential reading,h Oil 0.2 m 0.3 m Water 9-Air flows through a pipe at a rate of 200L/s.The pipe consists...
5) Oil (S.G=0.9) flows enters the pipe shown through the bottom inlet at a rate of 0.25 m/min and is discharged to at P. - 76 kPa the nozzle outlet at the top. The pipe has a diameter Di = 40 mm at the entrance and a diameter D2 = 20 mm at the exit. If P. = 76 kPa, P2 =20 kPa, and the weight the oil and the piping is negligible, what is the reaction moment at flange...
QUESTION 4 Two pipelines containing oil are connected by a differential manometer, as shown below. The pressure in pipe A is 10.7 psi. Determine the pressure in pipe B. 32" 27" 30" 24" 18" 21" Water Oil, S.G-0.86 Mercury, S.G.-13.57 o a- 3.8 psi Ob. 5.14 ps ??. 6,0 psi d 7.3 psi
Q1 (10 pts): Oil flows in a pipe shown in the figure below. The orifice in the pipe has a coefficient of discharge of 0.64. Compute the discharge of oil in the pipe. 3-in-diameter, sharp-edged orifice 10 in Flow Oil (s.g. - 0.86) 15.2 in -Mercury
Water flows through the pipe contraction shown in Figure 1. For the given difference in piezometer levels, determine the flow rate in L/s. Assume that: H=0.80 m, DI = 8 cm, oil D2 = 5 cm & S.G. of oil = 0.7 -- --3 Figure 1
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...
Pipe A contains gasoline(SG=0.70) , pipe B contains oil(SG=0.90), and the manometer fluid is mercury. Determine the new differential reading if the pressure in pipe A is decreased 25 kPa, and the pressure in pipe B remains constant. The initial differential reading is 0.30 m as shown. Use unit weight of water = 9810 N/m3 0.4 m Oil 0.3 m , Merc Gasoline?
Find the velocity of the flow of an oil through pipe when the difference of mercury level in a differential U - tube manometer connected to the two tapping of the pitot tube is 100 mm. The coefficient of the pitot tube = 0.98, the specific gravity of oil and mercury are 0.8 and 13.6 respectively. Density of water 1000 kg/m3 Select one: O a. 5.62 m/s O b.5.49 m/s O c.5.22 m/s O d. 4.88 m/s O e. 4.98...
(c) Fuel oil, with a density of 870 kg m-, is pumped through a horizontal pipe, as shown in Figure Q2.2. The pipe is 100 mm in diameter and contains an orifice plate with a throat diameter of 40 mm. The pressure drop across the orifice is measured on a U-tube manometer, containing mercury with a specific gravity 13.6. The difference in levels of the columns is measured as 45 mm. The coefficient of discharge for the orifice plate Ca...
3. Oil flows in the pipe shown. The orifice in the pipe has a coefficient of discharge of 0.64. Compute the discharge of the oil in the pipe CE311 Fluid Mechanics Winter 2019, Assignment 5, Due March 1 4. Water flows steadily through the funnel shown in the figure below. Throughout most of the funnel the flow is approximately radial (along rays from O) with a velocity of V- cr where r is the radial coordinate and c is a...