Thermodynamics is the study of how a fluids properties change in response to changes of temperature and pressure. measurements include volume, heat density, boiling and freezing temperatures at various pressures and other parameters such as viscosity enthalpy and entropy. You already understand some of the thermodynamics of water. It boils at a higher temperature if you increase the pressure, it takes a lot of energy to make water hotter, and some of it becomes steam in a shower, well below its boiling point. Different fluids react different ways to changes of pressure and temp. hope that helps.
due to the high heat generation in powered equipments there is requirement of maintaining the properties of fluid at high temperature hence cryogenic material have better properties.
Air standard cycles are conceived to permit thermodynamic calculations using the well-known and readily available thermodynamic properties of air. The results of such calculations may be used to predict compression ratio, specific heat ratio, and other operating parameters effects on thermal efficiency of a number of heat engines such as the Otto Cycle Heat Engine , the Diesel Cycle Heat Engine, and the Brayton Cycle Heat Engine.
No, even though they both gives energy but they are differ from where they get the energy for us to use. I C energy or Internal Combustion engine is getting the energy from the chemical to turn into a mechanical energy by means of burning the fuel. While closed thermodynamic system is one of the 3 kinds of thermodynamic, can exchange energy as a heat from outside system or from its surroundings, but not matter. Earth is an example of closed thermodynamic energy its getting the source of energy from the sun but no exchanging of mass outside.
To be general, steam tables are used to determine the properties of fluid. Mostly used on engine, refrigerator and heat pump. It shows the pressure and temperature require for a fluid to reach a certain amount of energy level.
Oil transmits power readily because it is minimally compressible, Lubrication abilities and the cooling properties.
The 3 thermodynamic properties are delta H, G, & S.
S. Srinivasan has written: 'Simplified curve fits for the thermodynamic properties of equilibrium air' -- subject(s): Curve fitting, Equilibrium air, Thermodynamic properties
Mass and thermodynamic temperature.
thermodynamic is the branch of science which deals with the energy transfer and its effect on the physical properties of the material
density, hardness, electrical conductivity, thermal conductivity, melting point, boiling point, magnetic properties, Curie point, mechanical properties, thermodynamic properties, thermal expansion, etc.
Y. R. Mayhew has written: 'Thermodynamic and transport properties of fluids'
L. V. Gurvich has written: 'Thermodynamic Properties of Individual Substances'
Charles E. Wicks has written: 'Thermodynamic properties of 65 elements'
J. W. Braithwaite has written: 'Thermodynamic properties of air (gamma study)'
A Padilla has written: 'High-temperature thermodynamic properties of sodium' -- subject(s): Thermodynamics, Sodium
D D. Wagman has written: 'Selected values of chemical thermodynamic properties'
John Martin Harder has written: 'Thermodynamic properties of liquid metals and alloys'