The reform reaction between steam and gaseous methane (CH₂) produces "synthesis gas," a mixture of carbon monoxide gas and dihydrogen gas. Synthesisgas is one of the most widely used industrial chemicals, and is the major industrial source of hydrogen.Suppose a chemical engineer studying a new catalyst for the reform reaction finds that 668. liters per second of methane are consumed when the reaction is runat 222. "C and the methane is supplied at 0.19 atm. Calculate the rate at which dihydrogen is being produced. Give your answer in kilograms per second. Roundyour answer to 2 significant digits.104ExplanationCheckD.PGM

Answer: This question is based on ideal gas equation which is shown below: PV=nRT Here: P=Pressure…

Answered: The reform reaction between steam and…

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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Similar questions

One of the most widely produced chemicals in the world is ammonium to be used as fertilizer. It is synthesized by the Haber process (∆G° = –32.9 kJ/mol):N2(g) + 3H2(g) → 2NH3(g)How much does this reaction proceeded if you start with n moles of nitrogen and 3n moles of hydrogen? Also, let’s assume that the reactor maintains a pressure of 1 bar like the reaction is in a balloon, and that the temperature is maintained at 25 °C.
A catalyst was created to convert C3H8O into C3H6O through a gas-phase reaction at 450 K and 0.75 bar: C3H8O = C3H6O + H2 The feed is C3H8O and N2 (an inert) at a 1:4 mole ratio. At thermodynamic equilibrium, determine percent conversion of C3H8O. Assuming the reaction proceeds to equilibrium, how many kilograms of C3H8O would be needed to produce 5 kilograms of C3H6O?
A chemical engineer is studying the following reaction: BF 3(aq)+NH3(aq) → BF ,NH3(aq) At the temperature the engineer picks, the equilibrium constant K for this reaction is 1.3. The engineer charges ("fills") three reaction vessels with boron trifluoride and ammonia, and lets the reaction begin. He then measures the composition of the mixture inside each vessel from time to time. His first set of measurements are shown in the table below. Predict the changes in the compositions the engineer should expect next time he measures the compositions. reaction expected change in concentration compound concentration vessel BE3 I decrease (no change) 0.48 M f increase NH3 I decrease (no change) 0.55 M f increase A BF,NH3 f increase I decrease (no change) 1.01 M 0.41 M f increase I decrease (no change) BF, NH3 I decrease (no change) 0.48 M f increase В BF,NH3 f increase I decrease (no change) 1.08 M BF3 I decrease (no change) 1.07 M ↑ increase NH3 I decrease (no change) 1.14 M f increase C…

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