Question One Crude oil of specific gravity 0.85 flows upwards at a volume rate of flow of 60 liters per second through a vertical venturimeter with an inlet diameter of 200 mm and a throat diameter of 100 mm. The co-efficient of discharge of the venturimeter is 0.98. The vertical distance between the pressure tapping is 300 mm. 1- If two pressure gauges are connected at the tapping such that they are positioned at the levels of their corresponding tapping points, determine the difference of readings in N/cm² of the two pressure gauges. 2- If a mercury differential manometer is connected, in place of pressure gauges, to the tapping such that the connecting tube up to mercury are filled with oil, determine the difference in the level of the mercury column. Question Two ( Its required to pump a liquid of specific gravity (1.26) and dynamic viscosity of (15) poise at the rate of (22) iiters per second from a sump tank and deliver it freely at a point (105 m) away and (7 m) above the level of the sump through a (150 mm) pipe. Considering the friction head lost in the pipe only and overall efficiency is (70%), determine the power of the pump required in (KW) and (HP). FS 다 SHI Fr

Question One Crude oil of specific gravity 0.85 flows upwards at a volume rate of flow of 60 liters per second through a vertical venturimeter with an inlet diameter of 200 mm and a throat diameter of 100 mm. The co-efficient of discharge of the venturimeter is 0.98. The vertical distance between the pressure tapping is 300 mm. 1- If two pressure gauges are connected at the tapping such that they are positioned at the levels of their corresponding tapping points, determine the difference of readings in N/cm² of the two pressure gauges. 2- If a mercury differential manometer is connected, in place of pressure gauges, to the tapping such that the connecting tube up to mercury are filled with oil, determine the difference in the level of the mercury column. Question Two ( Its required to pump a liquid of specific gravity (1.26) and dynamic viscosity of (15) poise at the rate of (22) iiters per second from a sump tank and deliver it freely at a point (105 m) away and (7 m) above the level of the sump through a (150 mm) pipe. Considering the friction head lost in the pipe only and overall efficiency is (70%), determine the power of the pump required in (KW) and (HP). FS 다 SHI Fr

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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