8.11 The Ergun equation, shown below, is used to describe the flow of a fluid through a packed bed. AP is the pressure drop, p is the density of the fluid, Go is the mass velocity (mass flow rate divided by cross-sectional area), Dp is the diameter of the particles within the bed, is the fluid viscosity, L is the length of the bed, and & is the void fraction of the bed. 04 102. BAPp Dp & E3 G² L 1-E D₂Go μ Solve for 8.2 APp Dp GL = 1000 Given the parameter values listed below, find the void fraction & of the bed. : 10 1- & (DpGo/M) = = 150- +1.75 alculated as

Algebra and Trigonometry (6th Edition)
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ChapterP: Prerequisites: Fundamental Concepts Of Algebra
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stable,
which they are stable.
8.11 The Ergun equation, shown below, is used to describe the
flow of a fluid through a packed bed. AP is the pressure drop, p is
the density of the fluid, Go is the mass velocity (mass flow rate
divided by cross-sectional area), Dp is the diameter of the particles
within the bed, u is the fluid viscosity, L is the length of the bed,
and & is the void fraction of the bed.
*
APp Dp 83
in G² L 1-8
DpGo 1000
μ
Solve for
1- &
(DpGo/M)
Given the parameter values listed below, find the void fraction & of
the bed.
=
= 150-
+1.75
8.2 APpDp = 10
$5. G²L
8.12 The pressure drop in a section of pipe can be calculated as
F
Civil an-
8.14 In
per unit
of given
P
A
where e
ticity. If
2:
Om
1/cos x
8.15 In
-
enginee
oxygen
discharg
C=
where x
(a) Det
Transcribed Image Text:stable, which they are stable. 8.11 The Ergun equation, shown below, is used to describe the flow of a fluid through a packed bed. AP is the pressure drop, p is the density of the fluid, Go is the mass velocity (mass flow rate divided by cross-sectional area), Dp is the diameter of the particles within the bed, u is the fluid viscosity, L is the length of the bed, and & is the void fraction of the bed. * APp Dp 83 in G² L 1-8 DpGo 1000 μ Solve for 1- & (DpGo/M) Given the parameter values listed below, find the void fraction & of the bed. = = 150- +1.75 8.2 APpDp = 10 $5. G²L 8.12 The pressure drop in a section of pipe can be calculated as F Civil an- 8.14 In per unit of given P A where e ticity. If 2: Om 1/cos x 8.15 In - enginee oxygen discharg C= where x (a) Det
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