Kindly provide the Process Flow Diagram, Basis, Find, Show Complete Step by Step SolutionTopic: Material Balance on Single Unit with Reaction A Claus plant converts gaseous sulfur compounds to elemental sulfur, thereby eliminatingemission of sulfur into the atmosphere. The process can be especially important in thegasification of coal, which contains significant amounts of sulfur that is converted to H2S duringgasification. In the Claus process, the H2S-rich product gas recovered from an acid-gas removalsystem following the gasifier is split, with one-third going to a furnace where the hydrogensulfide is burned at 1 atm with a stoichiometric amount of air to form SO2.3- H2S +- 02 → SO2 + H2OThe hot gases leave the furnace and are cooled prior to being mixed with the remainder of theH2S-rich gases. The mixed gas is then fed to a catalytic reactor where hydrogen sulfide and SO2react to form elemental sulfur> 2H,S + SO, → 2H2O + 3SThe coal available to the gasification process is 0.6 wt% sulfur, and you may assume that all ofthe sulfur is converted to H2S, which is then fed to the Claus plant. Estimate the feed rate of airto the Claus plant in kg/kg coal. (Hint: Assume that air is composed of 21% O2 and 79% N2 )

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ssion of sulfur into the atmosphere. The process can be especially important in the fication of coal, which contains significant amounts of sulfur that is converted to H2S fication. In the Claus process, the H2S-rich product gas recovered from an acid-gas re em following the gasifier is split, with one-third going to a furnace where the hydroge ide is burned at 1 atm with a stoichiometric amount of air to form SO2. 3 → H2S +02→ SO2 + H2O hot gases leave the furnace and are cooled prior to being mixed with the remainder of -rich gases. The mixed gas is then fed to a catalytic reactor where hydrogen sulfide an et to form elemental sulfur → 2H2S + SO2 → 2H2O+ 3S coal available to the gasification process is 0.6 wt% sulfur, and you may assume that sulfur is converted to H2S, which is then fed to the Claus plant. Estimate the feed rate ne Claus plant in kg/kg coal. (Hint: Assume that air is composed of 21% O2 and 79% )

ssion of sulfur into the atmosphere. The process can be especially important in the fication of coal, which contains significant amounts of sulfur that is converted to H2S fication. In the Claus process, the H2S-rich product gas recovered from an acid-gas re em following the gasifier is split, with one-third going to a furnace where the hydroge ide is burned at 1 atm with a stoichiometric amount of air to form SO2. 3 → H2S +02→ SO2 + H2O hot gases leave the furnace and are cooled prior to being mixed with the remainder of -rich gases. The mixed gas is then fed to a catalytic reactor where hydrogen sulfide an et to form elemental sulfur → 2H2S + SO2 → 2H2O+ 3S coal available to the gasification process is 0.6 wt% sulfur, and you may assume that sulfur is converted to H2S, which is then fed to the Claus plant. Estimate the feed rate ne Claus plant in kg/kg coal. (Hint: Assume that air is composed of 21% O2 and 79% )

Principles of Modern Chemistry

8th Edition

ISBN:9781305079113

Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Chapter14: Chemical Equilibrium

Section: Chapter Questions

Problem 57P

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