steps of carnot cycle - jilajila.colorado.edu/~wcl/chem4511/images/second law thermo 5 451... ·...
TRANSCRIPT
![Page 1: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/1.jpg)
Steps of Carnot Cycle
qh absorbed (+) from hot reservoir Thw done by system (–)
q=0w done by system (–)w = Cv(Tc-Th)S = 0
qc discarded (–) into cold reservoir Tcw done on system (+)
q=0w done on system (+)w=Cv(Th-Tc)S = 0
0hU q w
2
1
2
1
ln
ln (positive)
h hVq w nRTV
VS nRV
0hU q w
4
3
4
3
ln
ln (negative)
c cVq w nRTV
VS nRV
HOW??P,V,TAll change
![Page 2: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/2.jpg)
Ideal Gas Equation of State
Isochores – const V
So let’s tip this surface so thatwe see the V,T projection
![Page 3: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/3.jpg)
Reversible Adiabatic Expansionstep 2 of Carnot Cycle (we want w)
T
V
P2, V2, Th
P3, V3, Tc
, since adiabatic and 0U q w w q
So we could find U to get wU is a state function, and we canchoose any path that makes it easy.Here is one!
P2, V3, Th
a
b
0a b
v h c
v c h
U U UC T T
C T T
Is there a problem that P2, V3, Th is not on the surfaceof the ideal gas eq of state?No! It is just not an equilibrium state, and unstable!
![Page 4: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/4.jpg)
Irreversible Processes: adiabatic expansion
Clausius inequality: dSsys+dSsurr≥0 or dSsys≥-dSsurr≥dq/T
q=0 so dSsurr=0 and dSsys ≥ 0But dSsys>0 for an irrev spon process!!!
The system did work and T<0. The work came from conversion of thermal energy of the system.
wrev>wirrev
Q: Where did the rest of the work go for an irreversible process?
A: Into entropy of the system!!
![Page 5: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/5.jpg)
S in Phase Changes
Phase transitions are reversible because the two phases are in equilibrium at Ttrs
So trsS = trsH/Ttrs
Note: this is the molar entropy (JK-1mol-1)
solid → liquid → gas
dec Entropy inc
exo trsH endo
neg trsS pos
![Page 6: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/6.jpg)
Consider a phase transition at temp Ttrans. This the first really reversible process that we have seen.Consider a system and the surroundings at Ttrans (temperature at which the two phases are in equilibrium: when P= 1 atm, called the normal transition temperature)
E.g., H2O (l) H2O (s) T = 0 C or 273 K orH2O (l) H2O (g) T = 100 C or 373 K – both at 1 atm How does the boiling temperature change as the pressure is reduced? I.e., hiking in the mountains?
P
T
g
Now Htrans = qp and so
for one mole. This is the first real example of a reversible process!
transtrans
trans
HST
S in Phase Changes
Phase Diagram
Ttrans,norm
P1atm
![Page 7: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/7.jpg)
S in Phase Changes
Trouton’s Law: vapS ~ 85 kJ/mol
Why is water > 85 kJ/mol?
Why is methane <85kJ/mol?
![Page 8: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/8.jpg)
First: want to calculate entropy, S, of the system at temp, T:
S= Sf-Si=
Sf= Si+
For constant pressure and as long as only expansion work is being done: dqrev= CPdT
So: Sf= Si+
or: Sf= Si+ CPln(Tf/Ti) if CP is independent of T
NOTE: The same expresssion applies for constant volume by subsituting CV for CP
∫i
f dqrevT
∫i
f dqrevT
S in Phase Changes
∫i
f CPdTT
![Page 9: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/9.jpg)
Second: must consider phase changesLet’s go from T=0 to T>Tb
So: Sf= S(T=O)+ + fusH/Tf + + vapH/Tb +
S in Phase Changes
∫0
Tf CPdTT ∫
Tf
TbCPdTT ∫
Tb
T CPdTT
![Page 10: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/10.jpg)
Second: must consider phase changesLet’s go from T=0 to T>Tb
So: Sf= S(T=O)+ + fusH/Tf + + vapH/Tb +
S in Phase Changes
∫0
Tf CPdTT ∫
Tf
TbCPdTT ∫
Tb
T CPdTT
Difficult to measure Cp at low TS near T=0 we will use the
Debye extrapolation: CP=aT3
Will be addressed in the 3rd Law
![Page 11: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/11.jpg)
S in Phase Changes
![Page 12: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/12.jpg)
Let us find S for a more complex process. Throw liquid water at -5 C onto a sidewalk also at -5 C. What happens?? It freezes - - - fast! Is it reversible? NO!Is this process spontaneous? How do we find S for the process? Because S is a state function, we invent a reversible path, and calculate S along that path! Let’s invent a path!!!
S in Phase Changes: Example
Freezing (-5°C)H2O(l) -5°C H2O(s) -5°C
Step 1 heating
H2O(l) 0°CStep 2
Phase transition (freezing)But fusion is tabulated!
H2O(s) 0°C
Step 3 cooling
![Page 13: Steps of Carnot Cycle - JILAjila.colorado.edu/~wcl/Chem4511/images/Second Law Thermo 5 451... · Steps of Carnot Cycle q h absorbed (+) from ... ln ln (positive) hh V qwnRT V V SnR](https://reader031.vdocuments.us/reader031/viewer/2022022603/5b5acb177f8b9ac7498cb6a6/html5/thumbnails/13.jpg)
1 pq dH C dT 273 27321
1268 268
pC H OqS dTT T
1
273 Jln 1.392268 mol K
S Cp
Step 1
S in Phase Changes: ExampleFreezing (-5°C)
H2O(l) -5°C H2O(s) -5°C
Step 1 heating
H2O(l) 0°CStep 2
Phase transition (freezing)But fusion is tabulated!
H2O(s) 0°C
Step 3 cooling
CP (H2O(l)) = 75.32 J/mol K