Phase diagram
AnjaliDeviJS
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Feb 01, 2023
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About This Presentation
The interpretation of phase diagrams have application in petroleum industry, metallurgy, chemical industry, solvent separation and so on. This presentation guid you to understand phase diagrams.
Slide Content
Phase Diagrams
Dr. Anjali Devi J S
Assistant Professor (Contract Faculty), IIRBS, Mahatma Gandhi University, Kerala.
Dr. Anjali Devi J S
Assistant Professor (Contract Faculty), IIRBS, Mahatma Gandhi University, Kerala.
Phase
•A phase of a substance is a form of matter that is uniform throughout
in chemical composition and physical state.
Three phases of water:
Ice
Water
Steam
•A phase of a substance is a form of matter that is uniform throughout
in chemical composition and physical state.
Three phases of water:
Ice
Water
Steam
Allotropes of Phosphorous
Allotropes of Carbon
Diamond
Graphite
Diamond
Graphite
Calculate the number of Phases (P) in:
(a)A gas, or a gaseous mixture
(b) Crystal
(c) two totally miscible liquids
(d) A solution of sodium chloride in water
(e)Ice
(f) A slurry of ice and water
(g) calcium carbonate undergoes thermal decomposition
(h) Oil in water
Question
Answer(a) 1,(b) 1,(c) 1, (d) 1, (e) 1, (f) 2, (g) 3 ,(h) 2
(a)A gas, or a gaseous mixture
(b) Crystal
(c) two totally miscible liquids
(d) A solution of sodium chloride in water
(e)Ice
(f) A slurry of ice and water
(g) calcium carbonate undergoes thermal decomposition
(h) Oil in water
Question
Answer(a) 1,(b) 1,(c) 1, (d) 1, (e) 1, (f) 2, (g) 3 ,(h) 2
Phase Transition
•A phase transition, the spontaneous conversion of one phase into
another phase, occurs at a characteristic temperature for a given
pressure.
Illustration
At 1 atm, ice is the stable phase of water below 0°C, but above 0°C
liquid water is more stable. This difference indicates that below 0°C the
Gibbs energy decreases as liquid water changes into ice and that above
0°C the Gibbs energy decreases as ice changes into liquid water.
•A phase transition, the spontaneous conversion of one phase into
another phase, occurs at a characteristic temperature for a given
pressure.
Illustration
At 1 atm, ice is the stable phase of water below 0°C, but above 0°C
liquid water is more stable. This difference indicates that below 0°C the
Gibbs energy decreases as liquid water changes into ice and that above
0°C the Gibbs energy decreases as ice changes into liquid water.
Transition temperature
•The transition temperature, T
trs, is the temperature at which the
two phases are in equilibrium and the Gibbs energy is minimized at the
prevailing pressure.
•The transition temperature, T
trs, is the temperature at which the
two phases are in equilibrium and the Gibbs energy is minimized at the
prevailing pressure.
What about Carbon?
•At normal temperatures and pressures the molar Gibbs energy of
graphite is lower than that of diamond, so there is a thermodynamic
tendency for diamond to change into graphite.
•At normal temperatures and pressures the molar Gibbs energy of
graphite is lower than that of diamond, so there is a thermodynamic
tendency for diamond to change into graphite.
But No…!
Why?
•For this transition to take place, the C atoms must change their
locations, which is an immeasurably slow process in a solid except at
high temperatures.
•The discussion of the rate of attainment of equilibrium is a kinetic
problem and is outside the range of thermodynamics. In gases and
liquids the mobilitiesof the molecules allow phase transitions to
occur rapidly, but in solids thermodynamic instability may be frozen
in.
Why?
•For this transition to take place, the C atoms must change their
locations, which is an immeasurably slow process in a solid except at
high temperatures.
•The discussion of the rate of attainment of equilibrium is a kinetic
problem and is outside the range of thermodynamics. In gases and
liquids the mobilitiesof the molecules allow phase transitions to
occur rapidly, but in solids thermodynamic instability may be frozen
in.
Metastable Phase
•Thermodynamically unstable phases that persist because the
transition is kinetically hindered are called metastable phases.
Example:
Diamond is a metastable phase of carbon under normal conditions.
•Thermodynamically unstable phases that persist because the
transition is kinetically hindered are called metastable phases.
Example:
Diamond is a metastable phase of carbon under normal conditions.
Phase Diagram
•The phase diagram of a substance shows the regions of pressure and
temperature at which its various phases are thermodynamically
stable.
•The phase diagram of a substance shows the regions of pressure and
temperature at which its various phases are thermodynamically
stable.
Phase Diagram
Phase diagram is a map of the pressures and temperatures at which each
phase of a substance is the most stable.
Phase diagram is a map of the pressures and temperatures at which each
phase of a substance is the most stable.
Phase Boundaries
•The lines separating the regions, which are called phase boundaries,
show the values of p and T at which two phases coexist in
equilibrium.
•The lines separating the regions, which are called phase boundaries,
show the values of p and T at which two phases coexist in
equilibrium.
Vapor Pressure
•Consider a liquid sample of a pure substance in a closed vessel. The
pressure of a vapourin equilibrium with the liquid is called the
vapourpressure of the substance.
•Consider a liquid sample of a pure substance in a closed vessel. The
pressure of a vapourin equilibrium with the liquid is called the
vapourpressure of the substance.
•Therefore, the liquid–vapourphase boundary in a phase diagram
shows how the vapourpressure of the liquid varies with temperature.
Vapor Pressure
shows how the vapourpressure of the liquid varies with temperature.
Vapor Pressure
•The solid–vapourphase boundary shows the temperature variation
of the sublimation vapourpressure, the vapourpressure of the solid
phase.
•The vapourpressure of a substance increases with temperature
because at higher temperatures more molecules have sufficient
energy to escape from their neighbours.
Vapor Pressure
of the sublimation vapourpressure, the vapourpressure of the solid
phase.
•The vapourpressure of a substance increases with temperature
because at higher temperatures more molecules have sufficient
energy to escape from their neighbours.
Vapor Pressure
Boiling Temperature
•The temperature at which the vapourpressure of a liquid is equal to
the external pressure is called the boiling temperature at that
pressure.
•The temperature at which the vapourpressure of a liquid is equal to
the external pressure is called the boiling temperature at that
pressure.
Normal Boiling point
Vs
Standard Boiling point
•For an external pressure of 1 atm, the boiling temperature is called
the normal boiling point, T
b
•standard boiling point is the temperature at which the vapour
pressure reaches 1 bar.
•Hint:1.00 bar = 0.987 atm. Choose normal boiling point standard
boiling point of water.
(a) 99.6°C (b) 100°C
Vs
Standard Boiling point
•For an external pressure of 1 atm, the boiling temperature is called
the normal boiling point, T
b
•standard boiling point is the temperature at which the vapour
pressure reaches 1 bar.
•Hint:1.00 bar = 0.987 atm. Choose normal boiling point standard
boiling point of water.
(a) 99.6°C (b) 100°C
Critical Points
(a)A liquid in equilibrium with its vapour.
(b)When a liquid is heated in a sealed container, the
density of the vapourphase increases and that of
the liquid decreases slightly.
There comes a stage, (c), at which the two densities are
equal and the interface between the fluids disappears.
This disappearance occurs at the critical temperature.
The container needs to be strong: the critical
temperature of water is 374°C and the vapourpressure
is then 218 atm.
(a)A liquid in equilibrium with its vapour.
(b)When a liquid is heated in a sealed container, the
density of the vapourphase increases and that of
the liquid decreases slightly.
There comes a stage, (c), at which the two densities are
equal and the interface between the fluids disappears.
This disappearance occurs at the critical temperature.
The container needs to be strong: the critical
temperature of water is 374°C and the vapourpressure
is then 218 atm.
Melting Temperature
•The temperature at which, under a specified pressure, the liquid and
solid phases of a substance coexist in equilibrium is called the melting
temperature.
•The temperature at which, under a specified pressure, the liquid and
solid phases of a substance coexist in equilibrium is called the melting
temperature.
•The freezing temperature when the pressure is 1 atmis called the
normal freezing point, T
f,
•Freezing point when the pressure is 1 bar is called the standard
freezing point.
Normal Freezing point
Vs
Standard Freezing point
normal freezing point, T
f,
•Freezing point when the pressure is 1 bar is called the standard
freezing point.
Normal Freezing point
Vs
Standard Freezing point
Triple Point
•There is a set of conditions under which three different phases of a
substance (typically solid, liquid, and vapour) all simultaneously
coexist in equilibrium.
•These conditions are represented by the triple point, a point at
which the three phase boundaries meet.
•The temperature at the triple point is denoted T
3
•There is a set of conditions under which three different phases of a
substance (typically solid, liquid, and vapour) all simultaneously
coexist in equilibrium.
•These conditions are represented by the triple point, a point at
which the three phase boundaries meet.
•The temperature at the triple point is denoted T
3
Triple Point
•The triple point of a pure substance is outside our control: it occurs at
a single definite pressure and temperature characteristic of the
substance.
•The triple point of water lies at 273.16 K and 611 Pa (6.11 mbar, 4.58
Torr), and the three phases of water (ice, liquid water, and water
vapour) coexist in equilibrium at no other combination of pressure
and temperature.
•The triple point of a pure substance is outside our control: it occurs at
a single definite pressure and temperature characteristic of the
substance.
•The triple point of water lies at 273.16 K and 611 Pa (6.11 mbar, 4.58
Torr), and the three phases of water (ice, liquid water, and water
vapour) coexist in equilibrium at no other combination of pressure
and temperature.
Phase Diagram of CO
2
2
Phase Diagram of CO
2
Positive slope of the solid–liquid boundary
Indicates that the melting temperature of solid carbon dioxide rises as
the pressure is increased.
2
Positive slope of the solid–liquid boundary
Indicates that the melting temperature of solid carbon dioxide rises as
the pressure is increased.
The triple point lies above 1 atm
The liquid cannot exist at normal atmospheric pressures whatever the
temperature, and the solid sublimes when left in the open (hence the
name ‘dry ice’).
Phase Diagram of CO
2
The liquid cannot exist at normal atmospheric pressures whatever the
temperature, and the solid sublimes when left in the open (hence the
name ‘dry ice’).
Phase Diagram of CO
2
•To obtain the liquid, it is necessary to exert a pressure of at least 5.11
atm.
Phase Diagram of CO
2
atm.
Phase Diagram of CO
2
•Cylinders of carbon dioxide generally contain the liquid or
compressed gas; at 25°C that implies a vapourpressure of 67 atmif
both gas and liquid are present in equilibrium.
Phase Diagram of CO
2
compressed gas; at 25°C that implies a vapourpressure of 67 atmif
both gas and liquid are present in equilibrium.
Phase Diagram of CO
2
Question
Consider the following phase diagram of CO
2. At equilibrium, the incorrect
statement is:
(a)At 200K, on increasing the pressure from 1 to 50 atm, CO
2condenses to
liquid.
(b)It is ntpssibleto obtain liquid CO
2 from gaseous CO
2
below 5.11 atm.
(c)Both liquid and gas phase of CO
2 coexist at 298.15 K and
67 atm.
(d) With increasing pressure, the melting point of solid
CO
2 increases.
(GATE 2019)
Consider the following phase diagram of CO
2. At equilibrium, the incorrect
statement is:
(a)At 200K, on increasing the pressure from 1 to 50 atm, CO
2condenses to
liquid.
(b)It is ntpssibleto obtain liquid CO
2 from gaseous CO
2
below 5.11 atm.
(c)Both liquid and gas phase of CO
2 coexist at 298.15 K and
67 atm.
(d) With increasing pressure, the melting point of solid
CO
2 increases.
(GATE 2019)
Answer
•Option (a) is incorrect.
Gaseous CO2 converted into liquid at -78°C.
•Option (a) is incorrect.
Gaseous CO2 converted into liquid at -78°C.
Thank You
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