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Thermodynamics with Python
Thermodynamics with Python
1. Preface
2. Brief Introduction to Python
3. Brief Introduction to Thermodynamics: Systems , Processes, States and Properties
4. Evaluation of Properties
5. First Law of Thermodynamics - Introduction to Closed Systems
6. First Law of Thermodynamics - Boundary Work and Specific Heats
7. First Law of Thermodynamics - Open Systems
8. Second Law of Thermodynamics - Directionality of Processes, Entropy, Heat Engines and Refrigerators
9. Entropy Change of Real and Idealized Processes
10. Exercise Solutions
10.1. Exercise 1 Solutions
10.2. Exercise 2 Solutions
10.3. Exercise 3 Solutions
10.4. Exercise 4 Solutions
10.5. Exercise 5 Solutions
11. References Cited
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Index
A
|
B
|
C
|
D
|
E
|
F
|
G
|
H
|
I
|
J
|
K
|
L
|
M
|
N
|
O
|
P
|
Q
|
R
|
S
|
T
|
U
|
V
|
W
|
Z
A
absolute pressure
arange
,
[1]
arrays
B
boundary
boundary work
C
Cantera
,
[1]
Celsius
chemical energy
Clausius statement
closed system
compressed liquid
compressor
conduction
conservation of energy
control mass
control volume
convection
critical pressure
critical temperature
D
density
diffuser
dimensional homogeneity
E
electric work
electrical polarization work
energy
energy equation
,
[1]
enthalpy
entropy
,
[1]
,
[2]
equation of state
equilibrium
extensive property
F
Fahrenheit
First Law of Thermodynamics
fixed boundary
flow work
,
[1]
fsolve
function
functions
G
gage pressure
gas constant
Gibbs
H
heat
heat capacity
,
[1]
heat exchanger
,
[1]
heat transfer
I
ideal gas
imaginary boundary
incompressible fluid
inexcact differential
,
[1]
intensive property
internal energy
,
[1]
isentropic
isentropic efficiency
isentropic process
isobaric
isochoric
isothermal
J
Jupyter
Jupyterlab
K
Kelvin
Kelvin-Plank statement
kinetic energy
L
liquid approximation
lists
M
macroscopic
magnetic work
mass
mass conservation
mass flowrate
,
[1]
mass specific
Matplotlib
,
[1]
,
[2]
matplotlib
mechanical work
,
[1]
microscopic
minimize
mixing chamber
,
[1]
molar specific
moving boundary
N
nozzle
nuclear energy
numpy
O
open system
open systems
other mechanical work
P
pandas
path
path dependence
,
[1]
path function
phase
phase transition
pipe flow
plotting
,
[1]
,
[2]
polytropic process
potential energy
pressure
,
[1]
process
,
[1]
properties
pump
pure substance
Python
Q
quality
R
radiation heat transfer
Rankine
real boundary
reversible process
reversible work
rotational work
S
saturated liquid
saturated mixture
saturated temperature
saturated vapor
saturation dome
scipy
second law of thermodynamics
,
[1]
separator
shaft work
shomate
Shomate Equation
specific
specific heat
specific volume
spring work
state
state function
state property
steady state
steady state devices
supercritical fluid
superheated vapor
surroundings
system
T
temperature
,
[1]
,
[2]
thermal energy
throttle
turbine
U
unit analysis
universal gas constant
V
variable specific heat
vectorize
velocity
viscosity
volume
volumetric flowrate
W
work
,
[1]
Z
Zeroth Law of Thermodynamics