Oil flows through a smooth pipe of diameter D = 4 cm between points (1) and (2) that are 4 m apart at a flow rate Q = 40x 103m3/s. The pressure at the lower end is 200 kPa and the pipe is inclined at 0 = 30 degrees. Consider dynamic viscosity u = 0.40kg/(m s) and density p= 900 kg/m³ for the oil.1. Calculate the pressure P in Pascals when the flow is upwards2. Calculate the pressure P in Pascals when the flow is downwards1

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Answered: Oil flows through a smooth pipe of…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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2. In figure below fluid 1 is oil (SG=0.87) and fluid 2 is glycerin (SG=1.26) at 20°C. If P₁ = 98kPa, determine the absolute pressure at point A. Gu 10 cm P₂ Pa 32 cm Figure 2. Schematic for problem 2
Consider the tank shown in (Eigure 1). Take po = 900 kg/m³, Pu=1000 kg/m³, and pHg = 13 550 kg/m³. 0.6 m 0.8 m 100 mm h 1 of 1 > P Part A Determine the level of water in the tube if the depths of ol and water in the tank are 0.6 m and 0.8 m. respectively, and the height of mercury in the tube is h=0.075 m A Express your answer to three significant figures and include the appropriate units. PA h = 240 Submit + Provide Feedback → OF ? mm Previous Answers Request Answen X Incorrect; Try Again; 4 attempts remaining Next > 1231 AM 0
Consider the pressurized horizontal pipe network consisting of three pipes arranged in series. The characteristics of each pipe are summarized in the table. The flow of water at Node A is Q = 5 cfs and the pressure head at Node A is yA = 200 feet. The temperature of the water is 60° F. a) Determine the friction head loss hfric in feet in Pipe 1. b) Determine the friction head loss hfric in feet in Pipe 2. c) Determine the friction head loss hfric in feet in Pipe 3. d) Determine the pressure head ys in feet at Node B. e) Determine the pressure head yc in feet at Node C. f) Determine the pressure head yo in feet at Node D. Flow Friction Pressure Diameter Length Friction (feet) (cfs) head Нead Pipe (inches) factor f Kpipe loss (feet) Node (feet) 1 16 500 0.011 5 A 200 2 12 1000 0.013 B 3 10 750 0.015 D Node Node Node Node A в D 5 cfs 5 cfs Pipe 1 Pipe 2 Pipe 3

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