Week 3 Lecture 4

Question 1

Dalton’s law

Answer 1

sum of partial pressures = total pressure

Question 2

Amagat’s law

Answer 2

total volume of a mixture = sum of partial volumes at the pressure P and temperature T

Question 3

For ideal gas phase systems, Dalton’s law and Amagat’s law are both ____ simultaneously

Answer 3

valid

Question 4

For real multicomponent systems, Dalton’s Law of Additive Pressures is reasonable valid at relatively ____ pressures

Answer 4

low

PT < 50atm

Question 5

partial pressure of component using the non ideal has equation

Answer 5

partial pressure = ZnRT/V

Question 6

Dalton’s law is invalid for the real closed gas phase system at ____ pressures

Answer 6

high

Question 7

When Dalton’s law is invalid for the real closed gas phase system (at high pressures) then ________ can be used

Answer 7

Amagat’s law

Question 8

partial pressure of component using the non ideal has equation

Answer 8

partial volume = ZnRT/P

Question 9

used when the system pressure is between 50atm and 300atm

Answer 9

pseudocritical point (kays rule) method

Question 10

System reduced temperature equation

Answer 10

temperature / pseudocritical temperature

Question 11

System reduced pressure

Answer 11

pressure / pseudocritical pressure

Question 12

Used to find the compressibility factor Zm

Answer 12

• system reduced temperature
• system reduced pressure

Question 13

Kay’s rule equation temperature

Answer 13

pseudocritical temperature = Σyi Tc

Tc = critical temperature
yi = mole fraction of each component

Question 14

Kay’s rule equation pressure

Answer 14

pseudocritical temperature = Σyi Pc

Tc = critical temperature
yi = mole fraction of each component

Question 15

way of simulating non-ideal gas phase systems including the two phase boundary region.
It models the intermolecular forces including the two phase liquid-vapour region

Answer 15

fugacity

Question 16

When fugacity = pressure the system is ….

Answer 16

ideal

Question 17

The fugacity coefficient φ is…

Answer 17

dimensionless

Question 18

Fugacity equation

Answer 18

fugacity/pressure = fugacity coefficient

f/P = φ

Question 19

temperature of a gas above which it cannot be liquefied by pressure alone

Answer 19

critical temperature

https://languages.oup.com/about-us/case-studies/ecosia/

Question 20

pressure of a gas above which it cannot be liquefied by temperature change alone

Answer 20

critical pressure

https://languages.oup.com/about-us/case-studies/ecosia/

Question 21

Ideal volume assumption

Answer 21

𐤃V = 0

Can be non ideal for example when mixtures containing polar species and then more sophisticated methods are needed.

Question 22

system density =

Answer 22

system density = Σ(xi ρi)

xi = mole fraction of molecular species i
ρi = pure component density