Different types of thermodynamic processes are
1.Constant Volume process or Isochoric Process
2. Constant Pressure Process or Isobaric Process
3. Hyperbolic process
4. Constant Temperature process or Isothermal process
5. Adiabatic process or isentropic process
6. Polytropic process
7. Free expansion process
8. Throttling process
Constant volume process or isochoric process:
When the gas is heated at a constant volume, its temperature and pressure will increase. Since there is no change in its volume, no external work is done by the gas. All the heat supplied is stored in the body of the gas in the form of internal energy. It may be noted that this process is governed by Gay Lussac law.
Constant pressure process or isobaric process:
When the gas is heated at a constant pressure, its temperature and volume will increase. Since there is a change in its volume, the heat supplied is utilized in incresing the internal inergy of the gas, and also for doing some external work. It may be noted that this process is governed by Charles law.
Hyperbolic process:
A process, in which the gas is heated or expanded in such a way that the product of its pressure and volume remains constant, is called a hyperbolic process.
This process is governed by Boyle’s law.
Constant temperature process or Isothermal process:
A process, in which the temperature of the working substance remains constant during its expansion or compression, is called a constant temperature process or isothermal process. This will happen when the working substance remains in a perfect thermal contact with the surroundings, so that the heat ‘sucked in’ or ‘squeezed out’ is compensated exactly for the mechanical work done by, or on the gas respectively. It is thus obvious that in an isothermal process there is no change in temperature and no change in internal energy.
Adiabatic process or Isentropic process:
A process, in which the work substance neither receives nor gives out heat to its surroundings, during its expansion or compression is called an adiabatic process. This will happen when the working substance remains thermally insulated, so that no heat enters or leaves it during the process. It is thus obvious, that in an adiabatic process no heat leaves or enters the gas, the temperature of the gas changes, as the work is done at the cost of internal energy and the change in internal energy is equal to the work done.
Polytropic process:
The polytropic process is also known as the general law of the expansion and compression of gases.
Free expansion process:
A free expansion occurs when a fluid is allowed to expand suddenly into a vacuum chamber through an orifice of large dimensions. In this process, no heat is supplied or rejected and no external work is done. Hence the total heat of the fluid remains constant. This type of expansion may also be called as constant total heat expansion.
Throttling Process:
when a perfect gas is expanded through an aperture of minute dimensions, such as a narrow throat or a slightly opened valve, the process is termed as throttling process. During this process, no heat supplied or rejected and also no external work is done. Moreover, there is no change in temperature, and so the total heat of the fluid remains constant.
39) Work done in a free expansion process is
zero
Related Engineering Thermodynamics MCQ with Answers
Avogadro′s hypothesis
multiplied by its molecular weight
zero
neither mass nor energy crosses the boundaries of the system
Classification of thermodynamic systems are
1. Closed system: Closed system is one in which boundary of the system does not allow the matter (mass) to cross it, then it is known as closed system. Here the system contains fixed or constant amount of matter (mass). Energy can cross the boundary. Heat and work are the only ways in which energy can be transferred between a closed system and its surroundings.
2. Open system: Open system is one in which boundary of the system allows the matter (mass) to flow into or out of the system, then it is known as open system. In open system matter (Mass) crosses the boundary of the system. Heat and work may also cross the boundary.
3. Isolated system: Isolated system is one in which boundary of the system does not allow the matter (mass) or the energy to flow into or out of the system, then it is known as isolated system. An isolated system in one which is completely uninfluenced by the surroundings. It is of fixed mass and no heat or work crosses the boundary of the system.