Laminar flow occurs when the Reynolds number (Re*) is below 2000; turbulent flow occurs when the Reynolds number is above 2000. For the following species, determine the maximum value of the average 1D speed for which laminar flow will occur: a) Ne at 293 K where ?η is 313 ?μP and ?ρ = (PM)/(RT) through a 2.00 mm (id) pipe b) Liquid water at 293 K where ?η is 0.891 cP and ?ρ = 0.998 g/mL through a 2.00 mm (id) pipe *Re = (?ρ **d)/?η, where d is the diameter of the tube through which the fluid is flowing.
Laminar flow occurs when the Reynolds number (Re*) is below 2000; turbulent flow occurs when the Reynolds number is above 2000. For the following species, determine the maximum value of the average 1D speed for which laminar flow will occur: a) Ne at 293 K where ?η is 313 ?μP and ?ρ = (PM)/(RT) through a 2.00 mm (id) pipe b) Liquid water at 293 K where ?η is 0.891 cP and ?ρ = 0.998 g/mL through a 2.00 mm (id) pipe *Re = (?ρ **d)/?η, where d is the diameter of the tube through which the fluid is flowing.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Laminar flow occurs when the Reynolds number (Re*) is below 2000; turbulent flow occurs when the Reynolds number is above 2000. For the following species, determine the maximum value of the average 1D speed for which laminar flow will occur:
a) Ne at 293 K where ?η is 313 ?μP and ?ρ = (PM)/(RT) through a 2.00 mm (id) pipe
b) Liquid water at 293 K where ?η is 0.891 cP and ?ρ = 0.998 g/mL through a 2.00 mm (id) pipe
*Re = (?ρ **d)/?η, where d is the diameter of the tube through which the fluid is flowing.
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