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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: McGraw-Hill Education
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Question
Determine the Reynolds number for a flow of water at 25 ° C in a 1 in diameter sanitary pipe at a rate of 0.5 kg / second. What are the flow characteristics?
a. Reynold number =
b. The flow characteristics are
Laminer or Transient or Turbulent?

Transcribed Image Text:Determine the Reynolds number
for a flow of water at 25 ° C in a 1 in
diameter sanitary pipe at a rate of
0.5 kg / second. What are the flow
characteristics?
a. Reynold number =
b. The flow characteristics are
Laminer or Transient or Turbulent?

Transcribed Image Text:12.25 d
O 3.00 a .
(76
e-learning.untan.ac.id/l
Tentukan bilangan Reynolds untuk aliran air bersuhu 25
°C dalam pipa sanitasi berdiameter 1 in pada laju 0.5 kg
| sekon. Apa karakteristik alirannya?
ut of
a. Bilangan Reynold =
b. Karakteristik alirannya adalah
OLaminer
OTransien
OTurbulen
us page
Next page
PROUDLY MADE WITH INoodle
INGGRIS
INDONESIA
...
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- Please show your solution and write clearly.arrow_forwardSeveral different classifications of fluid flows were outlined - match each of the class pairs listed. Viscous A. Inviscid Extrernal B. Turbulent Incompressible C. Internal Laminar D. Compressiblearrow_forwardThe laminar flow of water in a small pipe is given by where R = 0.5 cm is the pipe radius, and Umax = 20 cm/s. Assume the temperature is 15°C. (a) Find the wall shear stress. (b) Find the pressure drop in a 10 cm length of the pipe. (c) Verify that the flow is indeed laminar.arrow_forward
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