How does the UNIQUAC model help?

It helps to place calculations of activity coefficients from graph

It helps to place calculations of activity coefficients on practical basis

It helps to place calculations of activity coefficients on theoretical basis

It helps to place calculations of activity coefficients from graph

It helps to provide a easier way to place calculations

When is Wilson’s equation superior to Margules and Van laar equation?

Non-ideal and immiscible mixtures

Non-ideal and miscible mixtures

HOW_DOES_THE_UNIQUAC_MODEL_HELP??$

It helps to place calculations of activity coefficients from graph

It helps to place calculations of activity coefficients on practical basis

It helps to place calculations of activity coefficients on theoretical basis

It helps to place calculations of activity coefficients from graph

It helps to provide a easier way to place calculations

When is Wilson‚Äö√Ñ√∂‚àö√ë‚àö¬•s equation superior to Margules and Van laar equation?$

Non-ideal and immiscible mixtures

Non-ideal and miscible mixtures

What is the temperature dependence of van laar constant?

Aij = A‚Äö√Ñ√∂‚àö√ë‚àö¬•ijR/T

Aij = A‚Äö√Ñ√∂‚àö√ë‚àö¬•ij/T

Aij = A‚Äö√Ñ√∂‚àö√ë‚àö¬•ijR/T

Aij = A‚Äö√Ñ√∂‚àö√ë‚àö¬•ij/TR

Aij = A‚Äö√Ñ√∂‚àö√ë‚àö¬•ij*RT

In Margules equation, what is the one constant form equivalent to?

Similar partial fugacity coefficients

Unsymmetrical activity coefficient curves

Symmetrical activity coefficient curves

Similar partial fugacity coefficients

Dissimilar partial fugacity coefficients

Non-ideal solution effects can be incorporated in K-value formulations by:

Use of enthalpy of vaporization

Use of partial fugacity coefficient ‚âà√¨‚àö√òi

For a regular solution model what is the excess molar free enrgy dependent upon?

Enthalpy of formation of molecules

Molecular size and intermolecular forces

Enthalpy of formation of molecules

The relationship between excess molar free energy and excess molar enthalpy is:

GE = hE ‚Äö√Ñ√∂‚àö√ë‚àö¬® TSE

GE = ‚Äö√Ñ√∂‚àö√ë‚àö¬® TSE

GE = hE ‚Äö√Ñ√∂‚àö√ë‚àö¬® T

Which model is used for predicting liquid-phase activity coefficients?

Gibb‚Äö√Ñ√∂‚àö√ë‚àö¬•s free equation model

13 + Mcqs in Liquid Activity Coefficient Models in Separation Processes Page 1 McqOptions

1.	What must be true for two coexisting liquid phases?
A.	YiL(1)xi(1) = YiL(2)xi(2)
B.	YiL(1)xi(1) = xi(2)
C.	YiL(1)xi(1)= YiL(2)yi(2)
D.	YiL(1)xi(1) = XiL(2)xi(2)
Answer» B. YiL(1)xi(1) = xi(2)

Discussion

2.	How does the UNIQUAC model help?
A.	It helps to place calculations of activity coefficients on practical basis
B.	It helps to place calculations of activity coefficients on theoretical basis
C.	It helps to place calculations of activity coefficients from graph
D.	It helps to provide a easier way to place calculations
Answer» C. It helps to place calculations of activity coefficients from graph

Discussion

3.	When is Wilson’s equation superior to Margules and Van laar equation?
A.	Non-ideal and immiscible mixtures
B.	Ideal and miscible mixtures
C.	Non-ideal and miscible mixtures
D.	Ideal and immiscible mixtures.
Answer» D. Ideal and immiscible mixtures.

Discussion

4.	HOW_DOES_THE_UNIQUAC_MODEL_HELP??$
A.	It helps to place calculations of activity coefficients on practical basis
B.	It helps to place calculations of activity coefficients on theoretical basis
C.	It helps to place calculations of activity coefficients from graph
D.	It helps to provide a easier way to place calculations
Answer» C. It helps to place calculations of activity coefficients from graph

Discussion

5.	What_must_be_true_for_two_coexisting_liquid_phases?$
A.	Y<sub>iL</sub><sup>(1)</sup>x<sub>i</sub><sup>(1)</sup> = Y<sub>iL</sub><sup>(2)</sup>x<sub>i</sub><sup>(2)</sup>
B.	Y<sub>iL</sub><sup>(1)</sup>x<sub>i</sub><sup>(1)</sup> = x<sub>i</sub><sup>(2)</sup>
C.	Y<sub>iL</sub><sup>(1)</sup>x<sub>i</sub><sup>(1)</sup>= Y<sub>iL</sub><sup>(2)</sup>y<sub>i</sub><sup>(2)</sup>
D.	Y<sub>iL</sub><sup>(1)</sup>x<sub>i</sub><sup>(1)</sup> = X<sub>iL</sub><sup>(2)</sup>x<sub>i</sub><sup>(2)</sup>
Answer» B. Y<sub>iL</sub><sup>(1)</sup>x<sub>i</sub><sup>(1)</sup> = x<sub>i</sub><sup>(2)</sup>

Discussion

6.	What is the full form of NRTL model?
A.	No rational two liquid model
B.	Non-random three liquid model
C.	Non-random two liquid model
D.	Non-Rating two liquid model
Answer» D. Non-Rating two liquid model

Discussion

7.	When is Wilson‚Äö√Ñ√∂‚àö√ë‚àö¬•s equation superior to Margules and Van laar equation?$
A.	Non-ideal and immiscible mixtures
B.	Ideal and miscible mixtures
C.	Non-ideal and miscible mixtures
D.	Ideal and immiscible mixtures.
Answer» D. Ideal and immiscible mixtures.

Discussion

8.	What is the temperature dependence of van laar constant?
A.	A<sub>ij</sub> = A‚Äö√Ñ√∂‚àö√ë‚àö¬•<sub>ij</sub>/T
B.	A<sub>ij</sub> = A‚Äö√Ñ√∂‚àö√ë‚àö¬•<sub>ij</sub>R/T
C.	A<sub>ij</sub> = A‚Äö√Ñ√∂‚àö√ë‚àö¬•<sub>ij</sub>/TR
D.	A<sub>ij</sub> = A‚Äö√Ñ√∂‚àö√ë‚àö¬•<sub>ij</sub>*RT
Answer» B. A<sub>ij</sub> = A‚Äö√Ñ√∂‚àö√ë‚àö¬•<sub>ij</sub>R/T

Discussion

9.	In Margules equation, what is the one constant form equivalent to?
A.	Unsymmetrical activity coefficient curves
B.	Symmetrical activity coefficient curves
C.	Similar partial fugacity coefficients
D.	Dissimilar partial fugacity coefficients
Answer» C. Similar partial fugacity coefficients

Discussion

10.	Non-ideal solution effects can be incorporated in K-value formulations by:
A.	Integrating for each molecule
B.	Use of excess free energy
C.	Use of enthalpy of vaporization
D.	Use of partial fugacity coefficient ‚âà√¨‚àö√ò<sub>i</sub>
Answer» E.

Discussion

11.	For a regular solution model what is the excess molar free enrgy dependent upon?
A.	Volume occupied by molecules
B.	Interaction of molecules
C.	Molecular size and intermolecular forces
D.	Enthalpy of formation of molecules
Answer» D. Enthalpy of formation of molecules

Discussion

12.	The relationship between excess molar free energy and excess molar enthalpy is:
A.	G<sup>E</sup> = h<sup>E</sup> ‚Äö√Ñ√∂‚àö√ë‚àö¬® TS<sup>E</sup>
B.	G<sup>E</sup> = h<sup>E</sup> + TS<sup>E</sup>
C.	G<sup>E</sup> = ‚Äö√Ñ√∂‚àö√ë‚àö¬® TS<sup>E</sup>
D.	G<sup>E</sup> = h<sup>E</sup> ‚Äö√Ñ√∂‚àö√ë‚àö¬® T
Answer» B. G<sup>E</sup> = h<sup>E</sup> + TS<sup>E</sup>

Discussion

13.	Which model is used for predicting liquid-phase activity coefficients?
A.	Entropy models
B.	Enthalpy models
C.	Gibb‚Äö√Ñ√∂‚àö√ë‚àö¬•s free equation model
D.	Keller model
Answer» D. Keller model

Discussion

Explore topic-wise MCQs in Separation Processes.

What must be true for two coexisting liquid phases?

How does the UNIQUAC model help?

When is Wilson’s equation superior to Margules and Van laar equation?

HOW_DOES_THE_UNIQUAC_MODEL_HELP??$

What_must_be_true_for_two_coexisting_liquid_phases?$

What is the full form of NRTL model?

When is Wilson‚Äö√Ñ√∂‚àö√ë‚àö¬•s equation superior to Margules and Van laar equation?$

What is the temperature dependence of van laar constant?

In Margules equation, what is the one constant form equivalent to?

Non-ideal solution effects can be incorporated in K-value formulations by:

For a regular solution model what is the excess molar free enrgy dependent upon?

The relationship between excess molar free energy and excess molar enthalpy is:

Which model is used for predicting liquid-phase activity coefficients?