Cold water (at 5 °C) flows up through the vertical pipe that is connect to the expansion joint as shown in the figure. Two open-end manometers are attached to the pipe on either side of the expansion indicate the respective pressure values. a. Write the correct form of the Bernoulli equation (in units of "energy per mass") that describes the flow along the streamline between points A and B. Ignore all frictional (i.e. major) losses and minor losses. b. If the volumetric flow rate of water through the pipe is 0.022 m³/s, calculate the absolute pressure at point B. c. Determine the height of fluid h (in mm) in the manometer at point B. 200 mm 400 mm
Cold water (at 5 °C) flows up through the vertical pipe that is connect to the expansion joint as shown in the figure. Two open-end manometers are attached to the pipe on either side of the expansion indicate the respective pressure values. a. Write the correct form of the Bernoulli equation (in units of "energy per mass") that describes the flow along the streamline between points A and B. Ignore all frictional (i.e. major) losses and minor losses. b. If the volumetric flow rate of water through the pipe is 0.022 m³/s, calculate the absolute pressure at point B. c. Determine the height of fluid h (in mm) in the manometer at point B. 200 mm 400 mm
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
Related questions
Question
![Cold water (at 5 °C) flows up through the vertical pipe that is connect
to the expansion joint as shown in the figure. Two open-end
manometers are attached to the pipe on either side of the expansion
indicate the respective pressure values.
a. Write the correct form of the Bernoulli equation (in units
of "energy per mass") that describes the flow along the
streamline between points A and B. Ignore all frictional
(i.e. major) losses and minor losses.
b. If the volumetric flow rate of water through the pipe is
0.022 m³/s, calculate the absolute pressure at point B.
c. Determine the height of fluid h (in mm) in the manometer
at point B.
200 mm
400 mm
100 mm-
A
165 mm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fca6b5de9-d666-4be4-bec5-372f49facd74%2F7bd9e0ea-90d1-461a-b05b-17a6c2cb2d14%2F1j62pil_processed.png&w=3840&q=75)
Transcribed Image Text:Cold water (at 5 °C) flows up through the vertical pipe that is connect
to the expansion joint as shown in the figure. Two open-end
manometers are attached to the pipe on either side of the expansion
indicate the respective pressure values.
a. Write the correct form of the Bernoulli equation (in units
of "energy per mass") that describes the flow along the
streamline between points A and B. Ignore all frictional
(i.e. major) losses and minor losses.
b. If the volumetric flow rate of water through the pipe is
0.022 m³/s, calculate the absolute pressure at point B.
c. Determine the height of fluid h (in mm) in the manometer
at point B.
200 mm
400 mm
100 mm-
A
165 mm
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