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A Theoretical Study of the Formation Reactions of Chemical Compounds for Maximum Equilibrium Conversion


Affiliations
1 Department Of Chemistry, AKPC College, Subhasnagar, Bengai, Hooghly, Pin-712611, India
     

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Several model reaction systems have been analyzed to obtain a general rule for maximum equilibrium yield in a chemical reaction. The problem has been treated from all possible angles. The analysis reveals that the idea of using the reactants in stoichiometric ratio is just not a matter of coincidence for maximum yield in some known reactions, but a general principle for any reaction-type we can think of. Non-stoichiometric situations have naturally entered the analysis and an elaborate calculation-procedure for such systems has also been worked out. Analysis of such systems leads us to some general conclusions about the nature of equilibrium of a chemical reaction carried out under some specified conditions. Firstly I started with a known gaseous reaction, namely the formation of NH3 from N2 and H2. Then gradually I have shifted to symbolic chemical equations of different types without identifying the reactants and products with some known chemical species.

Keywords

Formation Reaction, Maximum Yield, Chemical Equilibrium, Reaction Stoichiometry, Stoichiometric Equation, Stoichiometric Coefficients.
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  • A Theoretical Study of the Formation Reactions of Chemical Compounds for Maximum Equilibrium Conversion

Abstract Views: 433  |  PDF Views: 3

Authors

Swapan Kole
Department Of Chemistry, AKPC College, Subhasnagar, Bengai, Hooghly, Pin-712611, India

Abstract


Several model reaction systems have been analyzed to obtain a general rule for maximum equilibrium yield in a chemical reaction. The problem has been treated from all possible angles. The analysis reveals that the idea of using the reactants in stoichiometric ratio is just not a matter of coincidence for maximum yield in some known reactions, but a general principle for any reaction-type we can think of. Non-stoichiometric situations have naturally entered the analysis and an elaborate calculation-procedure for such systems has also been worked out. Analysis of such systems leads us to some general conclusions about the nature of equilibrium of a chemical reaction carried out under some specified conditions. Firstly I started with a known gaseous reaction, namely the formation of NH3 from N2 and H2. Then gradually I have shifted to symbolic chemical equations of different types without identifying the reactants and products with some known chemical species.

Keywords


Formation Reaction, Maximum Yield, Chemical Equilibrium, Reaction Stoichiometry, Stoichiometric Equation, Stoichiometric Coefficients.



DOI: https://doi.org/10.24906/isc%2F2018%2Fv33%2Fi1%2F181782