9:15
Derive exergy as a property for a closed system
Randall Manteufel
12:58
Derive Exergy As Property For Closed System (2)
7:32
Exergy Air Given T and P
8:01
Exergy Concrete Block Given T and P
5:26
Exergy Water Given T and P
6:19
Exergy R134a Given T and P
1:40
Derive exergy change for a closed system
8:28
Exergy Change Propane Heated in a Piston-Cylinder
2:05
Exergy Liquid Mercury Given T and P
5:33
Derive exergy balance equation for a closed system
2:11
Exergy Balance Equation for Closed System
17:46
Exergy Destruction Stirring Steam Tank with Paddle Wheel
21:57
Exergy Transfer Isothermal Expansion Argon Piston Cylinder Assembly
4:38
Exergy Balance equation for Control Volume (open system)
7:05
Exergetic efficiency hydraulic turbine
4:47
Exergetic Efficiency for a Turbine
10:56
Exergy Destruction in a Steam Turbine
11:36
Exergy Destruction Air Flow in Nozzle
4:08
Discuss exergetic efficiency compressor
7:44
Discuss Exergetic Efficiency Heat Exchanger No Mixing
4:44
Discuss Exergetic Efficiency Direct Contact Heat Exchanger
8:30
Exergetic Efficiency Direct Contact Heat Exchanger with Steam
6:51
Derive flow exergy
16:12
Argon flow in nozzle calc exit speed and exergy destruction
28:09
Energy entropy and exergy change or transfer for electrically heated rigid steam tank
8:53
exergetic analysis steam turbine 1 inlet and 2 outlets
13:39
Exergy change of air in rigid tank that is cooled
9:19
Exergy destruction with heat transfer through wall
