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Structural Analysis

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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Question

A 3 cm orifice plate is placed within a 4 cm pipe in which methanol at 20 °C (SG =
0.7884 and dynamic viscosity (μ) = 0.5857 cP) is flowing through. If the flow rate
passing through the pipe is 3.1 litres per seconds, determine the pressure difference that
must be measured around the orifice plate. The discharge coefficient of the orifice can be calculated by

Where, β is the ratio of orifice diameter to pipe diameter and Re is the Reynolds
number.

: 0.5959 + 0.0312ß2.1 – 0.184ß®
91.71B2.5
+
Re0.75

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Problem 3. Honey is being pumped through a network of small tubes with inner diamter D = 15 um (Fig. 1). The straight section of the tube has length of L = 5 cm, while the circular section of the tube forms a circle with radius R = 5 cm. 1. Given the viscosity of honey µhoney and assuming the flow splits evenly at the intersections, what is the total pressure drop required to maintain a flow rate Q = 0.5 mL/min as predicted by Poiseuille's law? = 10 Pa-s, density of honey Phoney = 1450 kg/m³, 2. Does the Reynolds number of the flow support the use of Poiseuille's law? R L L Figure 2: Honey is being pumped through a network of small tubes.
Number 15. complete solution and box final answer
A flow rate measuring device is installed in a horizontal pipe through which water is flowing. A U-tube manometer is connected to the pipe through pressure taps located 3 in. on either side of the device. The gage fluid in the manometer has a specific weight of 112 lb/ft3. Determine the differential reading of the manometer corresponding to a pressure drop between the taps of 0.5 lb/in². h = ft

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