First Law of Thermodynamics -...
Transcript of First Law of Thermodynamics -...
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First Law of Thermodynamics
ValveOpen
AirAirAirAir
What energy transformations occur asair parcels move around within thunderstorms?
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Outline:
Forms of Energy Energy Conservation Concept of Work PV Diagrams Concept of Internal Energy Joules Law Thermal Capacities (Specific Heats) Concept of Enthalpy Various Forms of the First Law Types of Processes
First Law of Thermodynamics
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Forms of EnergyEnergy comes in a variety of forms…
Potential
Mechanical Chemical Electrical
Internal Kinetic
Heat
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Energy ConservationThe First Law of Thermodynamics states that total energy is conserved for any
thermodynamic system → energy can not be created nor destroyed→ energy can only change from one form to another
constant)( EEnergy
constantelectricalchemicalheat
mechanicalpotentialkineticinternal
EEEEEEE
Our main concern in meteorology…
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The Concept of WorkWork is a Mechanical form of Energy:
DistanceForceWork
xFdW
ForceForceDistanceDistance
xx
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The Concept of WorkWork is a Mechanical form of Energy:
Recall the definition of pressure:
We can thus define work as:
DistanceForceWork
xFdW
2AreaForcep
xF
pdVdW
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The Concept of WorkChanges in Volume Cause Work:
• Work is performed when air expands
Work of Expansion:
• Occurs when a system performs work(or exerts a force) on its environment
• Is positive:
• Rising air parcels (or balloons) undergo expansion work• Since the environmental pressure decreases with height,
with height a rising parcel must expandto maintain an equivalent pressure
0dW
F
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The Concept of WorkChanges in Volume Cause Work:
• Similar to a piston in a car engineFF
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The Concept of WorkChanges in Volume Cause Work:
• Work is performed when air contracts
Work of Contraction:
• Occurs when an environment performs work(or exerts a force) on a system
• Is negative:
• Sinking air parcels (or balloons) undergo contraction work• Since the environmental pressure decreases with height,
with height a sinking parcel must contractto maintain an equivalent pressure
0dW
FF
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PV DiagramsAnother Way of Depicting Thermodynamic Processes:
• Consider the transformation: i → f
p
VVfVi
pi
pf
i
f
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PV DiagramsAnother Way of Depicting Work:
• Consider the transformation: i → f
p
V
pdVdW
f
ipdVW
VfVi
pi
pf
i
f The work done is the area under the i → f curve
(or gray area)
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Internal Energy = Kinetic Energy + Potential Energy(of the molecules in the system)
• Depends only on the current system state (p,V,T)• Does not depend on past states• Does not depend on how state changes occur
• Changes are the result of external forcingon the system (in the form of work or heat)
First Law of Thermodynamics
tenvironmentenvironmeninternal Heat WorkE
dQ dW dU
dQ pdVdU
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Joules Law
ValveClosed
AirAirVacuumVacuum
Thermally Insulated System
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Joules Law
Thermally Insulated System
ValveOpen
AirAirAirAir
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Joules Law
dQ pdVdU
ValveOpen
AirAirAirAir
• Air expanded to fill the container• Change in volume• Change in pressure
• No external work was done• Air expanded into a vacuum
within the system
• No heat was added or subtract• Thermally insulated system
• No change in internal energy• No change in temperature
What does this mean?
0dU
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Joules Law
dQ pdVdU
ValveOpen
AirAirAirAir
• Air expanded to fill the container• Change in volume• Change in pressure
• No external work was done• Air expanded into a vacuum
within the system
• No heat was added or subtract• Thermally insulated system
• No change in internal energy• No change in temperature
Internal Energy is only a function oftemperature
0dU U(T)U
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Thermal Capacities (Specific Heats)Assume: A small quantity of heat (dQ) is given to a parcel
The parcel responds by experiencing a small temperature increase (dT)
Specific Heat (c):
Two Types of Specific Heats:
• Depends on how the material changes as it receives the heat
Constant Volume:
Constant Pressure:
volumeconstantv dT
dQc
Parcel experiences no
change in volume
Parcel experiences no change in pressure
pressureconstantp dT
dQc
dTdQ
c
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Thermal Capacities (Specific Heats)Specific Heat at Constant Volume:
• Starting with:
• If the volume is constant (dV = 0), we can re-write the first law as:
• And substitute this into our specific heat equation as
volumeconstantv dT
dQc
dQ pdVdU dQdU →
dTdUcv or dTcdU v
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Thermal Capacities (Specific Heats)Specific Heat at Constant Volume:
• Since the internal energy is a state variable and does not depend on past statesor how state changes occur, we can define changes in internal energy as:
• Also, if we substitute our specific heat equation into the first law:
We can obtain an alternative form of the First Law of Thermodynamics:
2
2
dTcU v
T
T
pdVdTcdQ v
dQ pdVdU →dTcdU v
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Thermal Capacities (Specific Heats)Specific Heat at Constant Pressure:
• Starting with
and recognizing that,
we can obtain another alternative form of the First Law of Thermodynamics:
Also,
pressureconstantp dT
dQc
pdVdTcdQ v
VdppdV d(pV)
VdpdTcdQ p
*vp nRcc
TnRpV *
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Concept of EnthalpyAssume: Heat (dQ) is added to a system at constant pressure
Impact: 1) The system’s volume increases (V1→V2) and work is done
2) The system’s internal energy increases (U1→U2)
Using the First Law:
We can then define Enthalpy (H) as:
)V-p(VdW 12
12 U-UdU
1212 VVp UUdQ
pV UH
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Concept of EnthalpyEnthalpy:
If we differentiate the definition of enthalpy and use prior relationships, we can obtain the following relation:
We shall see that Enthalpy will be a useful concept since most sources and sinks of heating in the atmosphere occur at roughly constant pressure
1212 VVp UUdQ
pV UH
dTcdHdQ p
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Forms of the First Law of ThermodynamicsFor a gas of mass m For unit mass
dW dUdQ pdV dUdQ
pdV dTcdQ v
Vdp dTcdQ p
dw du dq pd du dq
pd dTcdq v
dp dTcdq p
where: p = pressure U = internal energyV = volume W = workT = temperature Q = heat energyα = specific volume n = number of moles
cv = specific heat at constant volume (717 J kg-1 K-1)cp = specific heat at constant pressure (1004 J kg-1 K-1)Rd = gas constant for dry air (287 J kg-1 K-1)R* = universal gas constant (8.3143 J K-1 mol-1)
nRcc *vp Rcc dvp
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Types of ProcessesIsobaric Processes:
• Transformations at constant pressure • dp = 0
Isochoric Processes:
• Transformations at constant volume • dV = 0• dα = 0
p
V
i f
p
V
i
f
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Types of ProcessesIsothermal Processes:
• Transformations at constant temperature • dT = 0
Adiabatic Processes:
• Transformations without the exchange of heat between the environment and the system
• dQ = 0• More on this next lecture…
p
V
i
f
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Summary:
• Forms of Energy (know the seven types)• Energy Conservation (know the basic concept)• Concept of Work (expansion and contraction in the atmosphere)• PV Diagrams (origins of an equation for Work)• Concept of Internal Energy (know the basic concept)• Joules Law (know what it implies to internal energy)• Thermal Capacities (Specific Heats)• Concept of Enthalpy (know the basic concept)• Various Forms of the First Law• Types of Processes (isobaric, isothermal, isochoric, adiabatic)
First Law of Thermodynamics