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3.29 Hydrochloric acid is produced from chlorine according to Cl2 + H20 O 2 HCI + 2 02 The standard heats of formation at 298 K are-241.82, – 92.307 kJ/mol for water vapour and hydrochloric acid respectively. The reaction is to be carried out at 500 K with saturated steam at 500 K and chlorine gas at 500 K entering the reactor with a ratio of 3 mol steam per mol of chlorine gas. Determine the amount of heat to be added or to be removed per kmol of acid obtained if the reaction goes to completion and the products leave at 500 K. Mean specific heats of chlorine gas, oxygen, HCI, and water vapour may be taken as 35.0, 33.0, 40.0, and 25.0 J/mol K respectively, and enthalpy of saturated water vapour at 298 K and 500 K are 2547 kJ/kg and 2801 kJ/kg respectively.3.30 Calculate the theoretical flame temperature for a gas containing

3.29 Hydrochloric acid is produced from chlorine according to Cl2 + H20 O 2 HCI + 2 02 The standard heats of formation at 298 K are-241.82, – 92.307 kJ/mol for water vapour and hydrochloric acid respectively. The reaction is to be carried out at 500 K with saturated steam at 500 K and chlorine gas at 500 K entering the reactor with a ratio of 3 mol steam per mol of chlorine gas. Determine the amount of heat to be added or to be removed per kmol of acid obtained if the reaction goes to completion and the products leave at 500 K. Mean specific heats of chlorine gas, oxygen, HCI, and water vapour may be taken as 35.0, 33.0, 40.0, and 25.0 J/mol K respectively, and enthalpy of saturated water vapour at 298 K and 500 K are 2547 kJ/kg and 2801 kJ/kg respectively.3.30 Calculate the theoretical flame temperature for a gas containing

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
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3.29 Hydrochloric acid is produced from chlorine according to Cl2 + H20 O 2 HCI + 2 02 The standard heats of formation at 298 K are-241.82, – 92.307 kJ/mol for water vapour and hydrochloric acid respectively. The reaction is to be carried out at 500 K with saturated steam at 500 K and chlorine gas at 500 K entering the reactor with a ratio of 3 mol steam per mol of chlorine gas. Determine the amount of heat to be added or to be removed per kmol of acid obtained if the reaction goes to completion and the products leave at 500 K. Mean specific heats of chlorine gas, oxygen, HCI, and water vapour may be taken as 35.0, 33.0, 40.0, and 25.0 J/mol K respectively, and enthalpy of saturated water vapour at 298 K and 500 K are 2547 kJ/kg and 2801 kJ/kg respectively.3.30 Calculate the theoretical flame temperature for a gas containing
Transcribed Image Text:3.29 Hydrochloric acid is produced from chlorine according to Cl2 + H20 O 2 HCI + 2 02 The standard heats of formation at 298 K are-241.82, – 92.307 kJ/mol for water vapour and hydrochloric acid respectively. The reaction is to be carried out at 500 K with saturated steam at 500 K and chlorine gas at 500 K entering the reactor with a ratio of 3 mol steam per mol of chlorine gas. Determine the amount of heat to be added or to be removed per kmol of acid obtained if the reaction goes to completion and the products leave at 500 K. Mean specific heats of chlorine gas, oxygen, HCI, and water vapour may be taken as 35.0, 33.0, 40.0, and 25.0 J/mol K respectively, and enthalpy of saturated water vapour at 298 K and 500 K are 2547 kJ/kg and 2801 kJ/kg respectively.3.30 Calculate the theoretical flame temperature for a gas containing
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