In the biomass gasification process to improve Hz production performance, spherical particles of the Ni / VAl:O, catalyst with a size of 0.07 mm and a density of 3961 kg / m' are fluidized in a reactor with a diameter of 1.5 m and 2 m of m?, using an air stream with a permanent gas mixture (density of 0.662 kg /m' and viscosity 2.80 x 10 Pa s). The volume occupied by the catalyst prior to fluidization is 5% of the total volume of the reactor. The vacuum fraction under the conditions of minimum fluidization is 0.45. a) Calculate the minimum fluidized bed height. L (m) = b) Calculate the pressure drop under minimum fluidization conditions. ДР (КРа) - c) Calculate the minimum velocity for fluidization. v (m / s) = mf

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
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In the biomass gasification process to improve Hz production performance, spherical particles of the Ni /
VAl:O, catalyst with a size of 0.07 mm and a density of 3961 kg / m are fluidized in a reactor with a
diameter of 1.5 m and 2 m of m?, using an air stream with a permanent gas mixture (density of 0.662 kg
/m' and viscosity 2.80 x 10 Pa s). The volume occupied by the catalyst prior to fluidization is 5% of the
total volume of the reactor. The vacuum fraction under the conditions of minimum fluidization is 0.45.
a) Calculate the minimum fluidized bed height.
L (m) =
b) Calculate the pressure drop under minimum fluidization conditions.
ДР (КРа) -
c) Calculate the minimum velocity for fluidization.
v (m / s) =
mf
|
Transcribed Image Text:In the biomass gasification process to improve Hz production performance, spherical particles of the Ni / VAl:O, catalyst with a size of 0.07 mm and a density of 3961 kg / m are fluidized in a reactor with a diameter of 1.5 m and 2 m of m?, using an air stream with a permanent gas mixture (density of 0.662 kg /m' and viscosity 2.80 x 10 Pa s). The volume occupied by the catalyst prior to fluidization is 5% of the total volume of the reactor. The vacuum fraction under the conditions of minimum fluidization is 0.45. a) Calculate the minimum fluidized bed height. L (m) = b) Calculate the pressure drop under minimum fluidization conditions. ДР (КРа) - c) Calculate the minimum velocity for fluidization. v (m / s) = mf |
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