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Chapter 17, Problem 69E

Using data from Appendix 4, calculate ∆H°, ∆S° and ∆G° for the following reactions that produce acetic acid:

Chapter 17, Problem 69E, Using data from Appendix 4, calculate H, S and G for the following reactions that produce acetic

Which reaction would you choose as a commercial method for producing acetic acid (CH3CO2H) at standard conditions? What temperature conditions would you choose for the reaction? Assume ∆H° and ∆S° do not depend on temperature.

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Interpretation Introduction

Interpretation: The values of ΔHο,ΔSο and ΔGο for the given reactions are to be calculated. The reaction that involves a commercial method for producing acetic acid at standard condition is to be stated. The temperature conditions are to be stated. The independency of ΔHο and ΔSο on the temperature is to be assumed.

Concept introduction: The term ΔGο is a thermodynamic function. The superscript on this function represents its standard form. The term Δ represents the change. This function is known as the standard Gibb’s free energy change. It correlates the enthalpy and entropy of the system in a mathematical formula.

Answer to Problem 69E

Answer

  • The values of ΔHο,ΔSο and ΔGο for the given reactions are,

Reaction1Reaction2ΔHο16kJ_173kJ_ΔSο240J/K_278J/K_ΔGο+56kJ_89kJ_

  • The second reaction is suitable as a commercial method for producing acetic acid at standard conditions.
  • The temperature for the suitable reaction is 622.30K_ .

Explanation of Solution

Explanation

Given

The reactions are given as,

2CH4(g)+CO2(g)CH3COOH(l)CH3OH(g)+CO(g)CH3COOH(l)

The given values of ΔHfο,ΔSfο and ΔGfο are as follows,

SubstanceΔHfο(kJ/mol)ΔSfο(J/Kmol)ΔGfο(kJ/mol)CH3COOH(l)484160389CH4(g)7518651CH3OH(g)201240163CO2(g)393.5214394CO(g)110.5198137

The calculation of standard enthalpy change for both the reactions is given below.

The value of standard enthalpy change ΔHο of the given reaction is calculated by the formula,

ΔHο=npΔHfο(products)nrΔHfο(reactants)

Where,

  • ΔHfο(reactants) are the standard free energy of formation for the reactants.
  • ΔHfο(products) are the standard free energy of formation for the products.
  • np is the number of products molecule.
  • nr is the number of reactants molecule.
  • is the symbol of summation.

For the first reaction, the representation in the above form is written as,

ΔHο=npΔHfο(products)nrΔHfο(reactants)ΔHο=ΔHfοCH3COOH(l)ΔHfοCH4(g)ΔHfοCO2(g)

Substitute the values of standard enthalpy of formations in the above equation.

ΔHο=ΔHfοCH3COOH(l)ΔHfοCH4(g)ΔHfοCO2(g)ΔHο=1mol(484kJ/mol)1mol(75kJ/mol)1mol×(393kJ/mol)ΔHο=(484kJ)+(75kJ)+(393kJ)ΔHο=16kJ_

For the second reaction, the representation in the above form is written as,

ΔHο=npΔHfο(products)nrΔHfο(reactants)ΔHο=ΔHfοCH3COOH(l)ΔHfοCH3OH(g)ΔHfοCO(g)

Substitute the values of standard enthalpy of formations in the above equation.

ΔHο=ΔHfοCH3COOH(l)ΔHfοCH3OH(g)ΔHfοCO(g)ΔHο=1mol(484kJ/mol)1mol(201kJ/mol)1mol×(110.5kJ/mol)ΔHο=(484kJ)+(201kJ)+(110.5kJ)ΔHο=173kJ_

The calculation of standard entropy change for both the reactions is given below.

The value of standard entropy change ΔSο of the given reaction is calculated by the formula,

ΔSο=npΔSfο(products)nrΔSfο(reactants)

Where,

  • ΔSfο(reactants) are the standard free energy of formation for the reactants.
  • ΔSfο(products) are the standard free energy of formation for the products.
  • np is the number of products molecule.
  • nr is the number of reactants molecule.
  • is the symbol of summation.

For the first reaction, the representation in the above form is written as,

ΔSο=npΔSfο(products)nrΔSfο(reactants)ΔSο=ΔSfοCH3COOH(l)ΔSfοCH4(g)ΔSfοCO2(g)

Substitute the values of standard entropy of formations in the above equation.

ΔSο=ΔSfοCH3COOH(l)ΔSfοCH4(g)ΔSfοCO2(g)ΔSο=1mol(160J/Kmol)1mol(186J/Kmol)1mol×(214J/Kmol)ΔSο=(160J/Kmol)(186J/Kmol)(214J/molK)ΔSο=240J/K_

For the second reaction, the representation in the above form is written as,

ΔSο=npΔSfο(products)nrΔSfο(reactants)ΔSο=ΔSfοCH3COOH(l)ΔSfοCH3OH(g)ΔSfοCO(g)

Substitute the values of standard entropy of formations in the above equation.

ΔSο=ΔSfοCH3COOH(l)ΔSfοCH3OH(g)ΔSfοCO(g)ΔSο=1mol(160J/Kmol)1mol(240J/Kmol)1mol×(198J/Kmol)ΔSο=(160J/K)(240J/K)(198J/K)ΔSο=278J/K_

The calculation of standard entropy change for both the reactions is given below.

The value of standard Gibb’s free energy ΔGο of the given reaction is calculated by the formula,

ΔGο=npΔGfο(products)nrΔGfο(reactants)

Where,

  • ΔGfο(reactants) are the standard free energy of formation for the reactants.
  • ΔGfο(products) are the standard free energy of formation for the products.
  • np is the number of products molecule.
  • nr is the number of reactants molecule.
  • is the symbol of summation.

For the first reaction, the representation in the above form is written as,

ΔGο=npΔGfο(products)nrΔGfο(reactants)ΔGο=ΔGfοCH3COOH(l)ΔGfοCH4(g)ΔGfοCO2(g)

Substitute the values of standard free energy in the above equation.

ΔGο=ΔGfοCH3COOH(l)ΔGfοCH4(g)ΔGfοCO2(g)ΔGο=(389kJ/mol)1mol(51kJ/mol)1mol×(394kJ/mol)ΔGο=(389kJ)+(51kJ)+(394kJ/mol)ΔGο=+56kJ_

For the second reaction, the representation in the above form is written as,

ΔGο=npΔGfο(products)nrΔGfο(reactants)ΔGο=ΔGfοCH3COOH(l)ΔGfοCH3OH(g)ΔGfοCO(g)

Substitute the values of standard free energy in the above equation.

ΔGο=ΔGfοCH3COOH(l)ΔGfοCH3OH(g)ΔGfοCO(g)ΔGο=(389kJ/mol)1mol(163kJ/mol)1mol×(317kJ/mol)ΔGο=(389kJ)+(163kJ)+(137kJ)ΔGο=89kJ_

According to the law of thermodynamics, the spontaneity of the reaction is determined by the calculated value of ΔGο . The value of ΔGο correlates the spontaneity conditions as,

ΔGοCriteriaofSponteneityPositiveNon-spontaneousNegativeSpontaneous

In the above calculated values of ΔGο , the value which is negative is for the second reaction. Therefore, it clearly indicates that the second reaction is spontaneous reaction. Hence, the second reaction is suitable as a commercial method for producing acetic acid at standard conditions.

The temperature for the suitable reaction that is second reaction is calculated below.

The Gibb’s free energy in terms of enthalpy change is defined as,

ΔGο=ΔHοTΔSο

Where,

  • ΔSο is the standard entropy change.
  • ΔHο is the standard enthalpy change.
  • ΔGο is the standard Gibb’s free energy change.
  • T is the temperature.

The above reaction clearly indicates that the negative value of Gibb’s free energy is only possible at a very low temperature. The value of enthalpy change is negative for both the reactions.

But in both the reactions, the reactant is more disordered than the products therefore the entropy decreases and more negative value is observed.

To balance both, the enthalpy and entropy conditions equilibrium is considered and at the equilibrium, the Gibb’s free energy is given as,

ΔGο=0

Substitute the value of ΔGο in the above equation to calculate the standard enthalpy.

ΔGο=ΔHοTΔSο0=ΔHοTΔSοT=ΔHοΔSο

Now substitute the standard values of enthalpy and entropy change.

T=ΔHοΔSοT=(173kJ)(278J/K)T=173000J278JK1T=622.30K_

Conclusion

Conclusion

  • The values of ΔHο,ΔSο and ΔGο for the given reactions have been stated as,

Reaction1Reaction2ΔHο16kJ_173kJ_ΔSο240J/K_278J/K_ΔGο+56kJ_89kJ_

  • The second reaction is suitable as a commercial method for producing acetic acid at standard conditions.
  • The temperature for the suitable reaction is 622.30K_ .

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