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Entropy Balance for Open Systems
As with energy balance for open systems, once can extend the equation 4.24 to a generalized entropy balance equation that may be written for the system shown in fig. 3.6. There is, however, an important point of departure from the first law. Unlike energy, entropy is not a conserved quantity for real world processes in which both mechanical and thermal irreversibilities are inevitable. Hence for such processes are attended by a positive entropy generation rate, 
This conclusion may be expressed in mathematical terms as follows:
..(4.25)
As with eqn. 4.24, for eqn. 4.25 too, the left side reduces to zero if the processes occurring in the open system are totally reversible; that is, both with respect to the system as well to the surroundings. Or else there is a net entropy generation.
A process is said to be internally reversible if all the processes occurring within the system are mechanically reversible, that is they are not subject to dissipative forces. External reversibility, on the other hand, signifies that all heat transfer between the system and surrounding occur under infinitesimal gradients and are therefore thermally reversible. In principle reversible heat transfer is possible if the surroundings have heat reservoirs with temperatures equal to those of the control surface or if reversible Carnot engines operate between the control-surface temperatures and the heat-reservoir temperatures.
We next expand eqn. 4.25 to a further level of detail. Let there be heat transfer at the rate 
at a particular part of the control surface of the open system where the surrounding temperature is given by 
Thus:
..(4.26)
Here, j runs over all the heat reservoirs associated with the system. The negative sign is used for the entropy term for the surroundings as heat transfer terms by convention are associated with the system.
Putting eqn. 4.26 in eqn. 4.25 one obtains:
..(4.27)
For steady flows through the control volume eqn. 4.27 reduces to:
..(4.28)
Further, for the simplest case of one inlet and exit, and one surrounding temperature:
..(4.29)
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FAQs on Entropy Balance for Open Systems - Thermodynamics - Mechanical Engineering
| 1. What is an entropy balance for open systems in mechanical engineering? |  |
Ans. An entropy balance for open systems in mechanical engineering refers to the application of the laws of thermodynamics to analyze and quantify the change in entropy within a system that is open to its surroundings. It involves considering the inflow and outflow of mass, energy, and entropy into and out of the system, and how it affects the overall entropy change. This balance is crucial in understanding the efficiency and performance of various mechanical systems.
| 2. How is the entropy balance equation derived for open systems in mechanical engineering? | |
Ans. The entropy balance equation for open systems in mechanical engineering is derived by considering the first and second laws of thermodynamics. The first law relates to the conservation of energy, while the second law deals with the increase in entropy over time. By applying these laws to an open system, considering the mass and energy entering and leaving the system, and accounting for any entropy generation or destruction, the entropy balance equation is obtained.
| 3. What are the key components of an entropy balance equation for open systems in mechanical engineering? | |
Ans. The key components of an entropy balance equation for open systems in mechanical engineering include the entropy change within the system, the entropy transfer due to mass and energy flow, and the entropy generation or destruction within the system. These components are quantified and expressed mathematically in the entropy balance equation to provide a comprehensive understanding of the entropy behavior in open systems.
| 4. How is the entropy balance equation used in practice in mechanical engineering? | |
Ans. The entropy balance equation is used in practice in mechanical engineering to analyze and optimize the performance of various systems. It allows engineers to quantify the entropy generation and destruction within a system, which helps identify areas of inefficiency or potential improvements. By applying the entropy balance equation, engineers can make informed decisions to enhance the overall efficiency and effectiveness of mechanical systems.
| 5. Can the entropy balance equation be applied to all types of open systems in mechanical engineering? | |
Ans. Yes, the entropy balance equation can be applied to all types of open systems in mechanical engineering, regardless of their specific characteristics or applications. Whether it is analyzing the performance of a heat exchanger, a turbine, or a refrigeration system, the entropy balance equation provides a fundamental framework for understanding the entropy changes and transfers within the system. However, the specific form and complexity of the equation may vary depending on the particular system under consideration.
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