• Home
  • Download PDF
  • Order CD-ROM
  • Order in Print
TERMINAL OBJECTIVE - h1012v1_22
ENABLING OBJECTIVES (Cont.) - h1012v1_23
ENABLING OBJECTIVES (Cont.) - h1012v1_24
ENABLING OBJECTIVES (Cont.) - h1012v1_25
THERMODYNAMIC PROPERTIES
Mass and Weight
Specific Volume
Intensive and Extensive Properties
Thermodynamic Properties Summary
TEMPERATURE AND PRESSURE MEASUREMENTS
Figure 1    Comparison of Temperature Scales
Temperature Scale Conversion
Pressure Scales
Pressure Relationships - h1012v1_36
Pressure Relationships - h1012v1_37
Temperature and Pressure Scales Summary
Temperature and Pressure Scales Summary (Cont.)
ENERGY, WORK, AND HEAT
Kinetic Energy - h1012v1_41
Specific Internal Energy
Specific P-V Energy
Specific Enthalpy
Heat - h1012v1_45
Heat - h1012v1_46
Heat - h1012v1_47
Entropy - h1012v1_48
Energy and Power Equivalences - h1012v1_49
Energy and Power Equivalences - h1012v1_50
Energy, Work, and Heat Summary
THERMODYNAMIC SYSTEMS AND PROCESSES
Types of Thermodynamic Systems
Thermodynamic Process
Throttling Process
Thermodynamic Systems and Processes Summary
CHANGE OF PHASE
Figure 3   Intensive Properties
Saturated and Subcooled Liquids
Quality
Constant Pressure Heat Addition
Critical Point
Triple Point
Condensation
Change of Phase Summary
Change of Phase Summary (Cont.)
PROPERTY DIAGRAMS AND STEAM TABLES
Pressure-Temperature (P-T) Diagram
Pressure-Specific Volume (P-n) Diagram
Pressure-Enthalpy (P-h) Diagram
Enthalpy-Temperature (h-T) Diagram
Temperature-Entropy (T-s) Diagram
Enthalpy-Entropy (h-s) or Mollier Diagram - h1012v1_73
Enthalpy-Entropy (h-s) or Mollier Diagram - h1012v1_74
Use of Mollier Chart
Use of steam tables
Use of the T-s diagram
Property Diagrams and Steam Tables Summary
FIRST LAW OF THERMODYNAMICS - h1012v1_79
First Law of Thermodynamics - h1012v1_80
Figure 14    First Law of Thermodynamics
Figure 15    Control Volume Concepts
Figure 16   Open System Control Volumes
Figure 18    Multiple Control Volumes in Same System
First Law of Thermodynamics - h1012v1_85
Open System Control Volume
Figure 19    T-s Diagram with Rankine Cycles
Figure 20    Typical Steam Plant Cycle
Open System - Steam Plant Component
Open System - Coolant
Thermodynamic Balance across Heat Source
Overall Thermodynamic Balance
Secondary Side of Heat Exchanger
First Law of Thermodynamics Summary
SECOND LAW OF THERMODYNAMICS
Entropy - h1012v1_96
Entropy - h1012v1_97
Carnots Principle
Figure 21    Carnot Cycle Representation
Carnot Efficiency
Figure 22    Real Process Cycle Compared to Carnot Cycle
Figure 23   Control Volume for Second Law Analysis
Diagrams of Ideal and Real Processes
Power Plant Components - h1012v1_104
Power Plant Components - h1012v1_105
Power Plant Components - h1012v1_106
Power Plant Components - h1012v1_107
Power Plant Components - h1012v1_108
Power Plant Components - h1012v1_109
Power Plant Components - h1012v1_110
Heat Rejection
Figure 29   Carnot Cycle vs. Typical Power Cycle Available Energy
Figure 30   Ideal Carnot Cycle
Figure 31   Rankine Cycle
Figure 32    Rankine Cycle With Real v.s. Ideal
Typical Steam Cycle
Figure 35    Typical Steam Cycle
Figure 36    Steam Cycle (Ideal)
Figure 38 Mullier Diagram
Mollier diagram
Causes of Inefficiency
Second Law of Thermodynamics Summary
COMPRESSION PROCESSES
Ideal  Gas  Law
Compressibility  of  Fluids
Constant  Volume  Process
Effects  of  Temperature  Changes  on  Fluid  Properties
Compression  Processes  Summary
Appendix A Thermodynamics
Figure A-1
Figure A-2
Figure A-3
Figure A-4






Western Governors University

Privacy Statement
Press Release
Contact

© Copyright Integrated Publishing, Inc.. All Rights Reserved. Design by Strategico.