#3 Orthonitroanaline (an important intermediate in dyes - called fast orange) is formed from the reaction of orthonitroanaline (ONCB) and aqueous ammonia. This liquid phase reaction is first order in both ONCB and ammonia with k = 0.0017 m³/kmol·min at 188 °C. The initial entering concentration of ONCB and ammonia are 1.8 kmol/m³ and 6.6 kmol/m³, respectively. ONCB is used as the basis of calculation. NO2 CI NO2 NH₂ + NHCI +2NH₂ a) Express the concentration of each species solely as a function of conversion. b) Write the rate law in terms of conversion at 188 °C by choosing ONCB as the basis of calculation.
#3 Orthonitroanaline (an important intermediate in dyes - called fast orange) is formed from the reaction of orthonitroanaline (ONCB) and aqueous ammonia. This liquid phase reaction is first order in both ONCB and ammonia with k = 0.0017 m³/kmol·min at 188 °C. The initial entering concentration of ONCB and ammonia are 1.8 kmol/m³ and 6.6 kmol/m³, respectively. ONCB is used as the basis of calculation. NO2 CI NO2 NH₂ + NHCI +2NH₂ a) Express the concentration of each species solely as a function of conversion. b) Write the rate law in terms of conversion at 188 °C by choosing ONCB as the basis of calculation.
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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Transcribed Image Text:#3 Orthonitroanaline (an important intermediate in dyes - called fast orange) is formed from
the reaction of orthonitroanaline (ONCB) and aqueous ammonia. This liquid phase reaction is
first order in both ONCB and ammonia with k = 0.0017 m³/kmol·min at 188 °C. The initial
entering concentration of ONCB and ammonia are 1.8 kmol/m³ and 6.6 kmol/m³, respectively.
ONCB is used as the basis of calculation.
NO2
CI
NO2
NH₂
+ NHCI
+2NH₂
a) Express the concentration of each species solely as a function of conversion.
Transcribed Image Text:b) Write the rate law in terms of conversion at 188 °C by choosing ONCB as the basis of
calculation.
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