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Ammonia is oxidized into nitric oxide and water as shown by the reaction below: 4 NH) (g) +5 O (g) 4 NO (g) + 6 H;0 (g) An equimolar mixture of NH) and oxygen at 127 °C are fed into a reactor in which 60 % of ammonia is reacted. The product gas emerges at 427 °C. Assume the operation to be at atmospheric pressure. On the basis of I mol of NI, calculate: a) the extent of reaction b) the rate at which heat must be transferred to or from the reactor in J/s. Indicate which. USE THE DATA BELOW AND SHOW ALL YOUR CALCULATIONS. You can assume the heat capacity of NH, (g) to be constant C,-35.06 J/(mol K) Sensible Enthalpy (J/mol) T,K O (g) NO (g) 1:0 (g) 273 298 732 746 837 400 3,752 3,695 4,284 500 6, 811 6,644 7,752 600 9,970 9,895 11,326 700 13,225 12,311 15,016

Ammonia is oxidized into nitric oxide and water as shown by the reaction below: 4 NH) (g) +5 O (g) 4 NO (g) + 6 H;0 (g) An equimolar mixture of NH) and oxygen at 127 °C are fed into a reactor in which 60 % of ammonia is reacted. The product gas emerges at 427 °C. Assume the operation to be at atmospheric pressure. On the basis of I mol of NI, calculate: a) the extent of reaction b) the rate at which heat must be transferred to or from the reactor in J/s. Indicate which. USE THE DATA BELOW AND SHOW ALL YOUR CALCULATIONS. You can assume the heat capacity of NH, (g) to be constant C,-35.06 J/(mol K) Sensible Enthalpy (J/mol) T,K O (g) NO (g) 1:0 (g) 273 298 732 746 837 400 3,752 3,695 4,284 500 6, 811 6,644 7,752 600 9,970 9,895 11,326 700 13,225 12,311 15,016

Introduction to Chemical Engineering Thermodynamics
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
Section: Chapter Questions
Problem 1.1P
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Ammonia is oxidized into nitric oxide and water as shown by the reaction below: 4 NH) (g) +5 O (g) 4 NO (g) + 6 H;0 (g) An equimolar mixture of NH) and oxygen at 127 °C are fed into a reactor in which 60 % of ammonia is reacted. The product gas emerges at 427 °C. Assume the operation to be at atmospheric pressure. On the basis of I mol of NI, calculate: a) the extent of reaction b) the rate at which heat must be transferred to or from the reactor in J/s. Indicate which. USE THE DATA BELOW AND SHOW ALL YOUR CALCULATIONS. You can assume the heat capacity of NH, (g) to be constant C,-35.06 J/(mol K) Sensible Enthalpy (J/mol) T,K O (g) NO (g) 1:0 (g) 273 298 732 746 837 400 3,752 3,695 4,284 500 6, 811 6,644 7,752 600 9,970 9,895 11,326 700 13,225 12,311 15,016
Transcribed Image Text:Ammonia is oxidized into nitric oxide and water as shown by the reaction below: 4 NH) (g) +5 O (g) 4 NO (g) + 6 H;0 (g) An equimolar mixture of NH) and oxygen at 127 °C are fed into a reactor in which 60 % of ammonia is reacted. The product gas emerges at 427 °C. Assume the operation to be at atmospheric pressure. On the basis of I mol of NI, calculate: a) the extent of reaction b) the rate at which heat must be transferred to or from the reactor in J/s. Indicate which. USE THE DATA BELOW AND SHOW ALL YOUR CALCULATIONS. You can assume the heat capacity of NH, (g) to be constant C,-35.06 J/(mol K) Sensible Enthalpy (J/mol) T,K O (g) NO (g) 1:0 (g) 273 298 732 746 837 400 3,752 3,695 4,284 500 6, 811 6,644 7,752 600 9,970 9,895 11,326 700 13,225 12,311 15,016
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