Elements of Thermodynamics - Universiteit Utrechtjeannot/geo4-1401/GEO4-1401-thermo.pdf · Elements...
Transcript of Elements of Thermodynamics - Universiteit Utrechtjeannot/geo4-1401/GEO4-1401-thermo.pdf · Elements...
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Elements of Thermodynamics
Indispensable link between seismology and mineral physics
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Physical quantities are needed to describe the state of a system:
• Scalars: Volume, pressure, number of moles
• Vectors: Electric or magnetic field
• Tensors: Stress, strain
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We distinguish extensive (size dependent) and intensive (size independent) quantities.
Conjugate quantities: product has the dimension of energy or energy per unit volume.
Temperature T Entropy S
Pressure P Volume V
Chemical potential µ Number of moles n
Electrical field E Displacement D
Stress σ Strain ε
intensive extensive
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By analogy with the expression for mechanical work as the product of force times displacement,
Intensive quantities à generalized forces
Extensive quantities à generalized displacements
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Consider a system of n extensive quantities ek and n intensive quantities ik, the differential increase in energy for a variation of ek is:
dE = Σk=1,n ik dek
The intensive quantities can thus be defined as the partial derivative of the energy with respect their conjugate quantities:
ik = ∂E/ ∂ ek
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To define the extensive quantities we have to introduce the Gibbs potential:
G = E - Σ ik ek
dG = - Σ ek dik
The intensive quantities can thus be defined as the partial derivative of the Gibbs potential with respect their conjugate quantities:
ek = - ∂ G/ ∂ ik
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Conjugate quantities are related by constitutive relations that describe the response of the system in terms of one quantity, when its conjugate is varied. The relation is usually taken to be linear (approximation) and the coefficient is a material constant. An example are the elastic moduli in Hooke’s law.
σij = Cijkl εkl (Cijkl are called stiffnesses)
εij = cijkl σkl (cijkl are called compliances)
!!! In general Cijkl ≠ 1/cijkl
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The linear approximation only holds for small variations around a reference state. In the Earth, this is a problem for the relation between pressure and volume at increasing depths. Very high pressures create finite strains and the linear relation (Hooke’s law) is not valid over such a wide pressure range. We will have to introduce more sophisticated equations of state.
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Thermodynamic potentials
The energy of a thermodynamic system is a state function. The variation of such a function depends only on the initial and final state.
A
B
P
T
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1st law
dU = dQ + dW
= TdS - PdV
Internal energy = heat + mechanical work
Internal energy is the most physically understandable expressed with the variables entropy and volume. They are not the most convenient in general à other potentials H, F and G by Legendre transform
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Energy can be expressed using various potentials according to which conjugate quantities are chosen to describe the system.
Internal energy U
Enthalpie H=U+PV
Helmholtz free energy F=U-TS
Gibbs free energy G=H-TS
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In differential form
Internal energy (1st law) dU = TdS - PdV
Enthalpie dH= TdS + VdP
Helmholtz free energy dF = -SdT - PdV
Gibbs free energy dG = -SdT +VdP
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These expressions allow us to define various extrinsic and intrinsic quantities.
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
==
−=−=
−=−=
==
PG
PH
VF
VU
TG
TF
SH
SU
TS
TS
PV
PV
V
P
S
T
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Maxwell’s relations Potentials are functions of state and their differentials are total and exact. Thus, the second derivative of the potentials with respect to the independent variables does not depend on the order of derivation.
( )
xyf
yxf
dyyfdx
xfdf
yxf
∂∂=
∂∂
∂
∂+
∂
∂=
∂∂22
,if and then
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dU = TdS −PdV
dU =∂U∂S
#
$%
&
'(dS +
∂U∂V#
$%
&
'(dV
∂2U∂S∂V
=∂2U∂V∂S
∂T∂V#
$%
&
'(S
= −∂P∂S#
$%
&
'(V
Similar relations using the other potentials. Try it!!!
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Maxwell’s relations are for conjugate quantities. Relations between non-conjugate quantities are possible
01 =⎟⎟⎟
⎠
⎞
⎜⎜⎜
⎝
⎛+−
⎟⎟⎟
⎠
⎞
⎜⎜⎜
⎝
⎛−
+⎟⎟⎟
⎠
⎞
⎜⎜⎜
⎝
⎛+=
+=
+=
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
ZX
ZY
YX
XY
YX
ZX
ZY
XY
YX
ZY
XY
ZX
YX
YXZZ
YXZZ
XZ
YZ
ZdZdX
dZdZdXdX
dZdXdY
dZdYdX
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⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
−=⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
⎟⎠
⎞⎜⎝
⎛∂∂
−=
=
TP
PV
TV
XZ
ZY
YX
XY
YX
VT
YX
ZZ
P
Z1
1
useful relations
example
If f(P,V,T)=0 then
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Dealing with heterogeneous rocks
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In general, the heterogeneity depends on the scale
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If at the small scale, the heterogeneity is random, it is useful to define an effective homogeneous medium over a large scale
∫=V
dxdydzzyxuV
u ),,(1
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In general, of course, rocks are not statistically homogeneous. There is some kind of organization. In the classical approximation this is usually ignored, however.
In the direct calculation, the evaluation of requires the knowledge of the
exact quantities and geometry of all constituents. This is often not known, but we can calculate reliable bounds.
∫=V
dxdydzzyxuV
u ),,(1
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(a) Deformation is perpendicular to layers. We define Ma=(σ/ε)a We have σ=σ1=σ2 homogeneous stress (Reuss) And ε=ε1V1+ε2V2 Thus 1/Ma=V1/M1+V2/M2
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(b) Deformation is parallel to layers. We define Mb=(σ/ε)b We have σ=σ1V1+σ2 V2 And ε=ε1=ε2 homogeneous strain (Voigt) Thus Mb=V1M1+V2M2
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The effective medium constant has the property
Ma < M < Mb
Hill proposed to average Ma and Mb which is known as the Voigt-Reuss-Hill average
M=(Ma+Mb)/2
In general, 1/Ma = Σ Vi/Mi and Mb = Σ ViMi
Tighter bounds are possible, but require the knowledge of the geometry (Hashin-Shtrikman)