60 degFCrude oil with sp. gr. = 0.887 flows through a piping with varying diameters but ultimately with 1 entrance60 deg Fand 2 exits. The upstream pipe is 50mm, scheduled 40. The middle pipe connected to the upstream pipe is 75 mm scheduled 40.The downstream pipe connected to the middle pipe has 2 exit pipes; each pipe is 38 mm scheduled 40. Equal quantity of fluidflows through the exit pipes, through the upstream pipe 20 cubic meters per hour.Determine:a. the mass flow rate in each of the pipesb. the velocity in each of the pipesAdditional information:Density of water at 60 deg F is 998.76 kg/cubic meter.Cross sectional area (CSA) of first pipe: 0.02330 sq.ft.CSA of middle pipe: 0.05130 sq. ft.CSA of each exit pipe: 0.01414 sq.ft.

a) Volumetric flowrate through pipe A = 20 m3 / hr The specific gravity of crude oil = 0.887 Density…

Answered: 60 degr Crude oil with sp. gr. = 0.887…

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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The water in an aboveground huge swimming pool is to be emptied by unplugging a 3-cm- diameter horizontal pipe attached to the bottom of the pool. Assuming that point 1 at the free surface of the pool and point 2 at the exit of pipe are open to atmosphere with a vertical distance of 2m, determine the maximum flow rate of water through the pipe. 2 m 1 Swimming pool 10 m 3 cm ↑ 25 m 2 m
typing only no hand written
6.39. Two large water tanks are connected by a 10-ft piece of 3-in pipe. The levels in the tanks are equal. When the pressure difference between the tanks is 30 lbf/in², what is the flow rate through the pipe?
When a sudden contraction is introduced in a horizontal pipeline from 500mm diameter to 250mm diameter, the pressure changed from 105Kpa to 69Kpa. If the coefficient of contraction is assumed to be 0.65, calculate the water flow rate. Following this, if there is a sudden enlargement from 250mm to 500mm and if the pressure at the 250mm section is 69Kpa, what is the pressure at the 500mm enlarged section? Nagoed moge vr Loss soth Cace 3) P = 105 kN/m P: = 69 kN/mi D, = 0.25 m P3 69 kN/m ID, = 0.25 m P. =? D=0.5 m D,=0.5 mi 3D 4
P1 B C P2 A A liquid flows through a piping system from P1 to the top of a structure at P2 The entire piping system is 2 sch 40 pipe The piping system is intended to provide liquid at a rate of 80 gpm while maintaining a P2 pressure of 36 psig. The flowrate at P1 and P2 are the same. (ie.. there is no splitting or branching of the flow) The friction factor, f (fanning), can be assumed to be 0.007
P1 E B P2 A A liquid flows through a piping system from P1 to the top of a structure at P2 The entire piping system is 4 sch 40 pipe The piping system is intended to provide liquid at a rate of 80 gpm while maintaining a P2 pressure of 32 psig. The flowrate at P1 and P2 are the same. (ie.. there is no splitting or branching of the flow) The friction factor, f (fanning), can be assumed to be 0.005
8. B. friction factor imbers 7 to 9, e given U-tube manometer, mercury was used in the manometer to determine the pressure of gas A. 7. If water was used the manometer? a. 0.76 m c. mass flow rate If at point B, the pressure is atmospheric, what is the pressure of the gas in atm? a. 0.74 atm is high. b. 7.6 m c. 17.9 m d. 25.5 m 9. If at point B, the empty space is evacuated, what is the pressure of the atm? d. 2.24 atm a. 0.74 atm b. 1.24 atm b. 1.24 atm c. 1.74 atm d. 2.24 atm as manometer fluid, what would be the height of water in c. 1.74 atm d. mass velocity gas in Gas A h = 56 cm Hg SG-13.6

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