Is 100% Efficiency Possible in Energy Conversion Processes?

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The discussion centers on whether 100% efficiency is achievable in energy conversion processes not constrained by the Second Law of Thermodynamics. One viewpoint argues that such processes, like converting electrical energy to work, can theoretically reach 100% efficiency since they are not limited by the Second Law. Conversely, another perspective asserts that the Second Law inherently prevents any energy conversion from achieving full efficiency due to inevitable energy loss as heat and the concept of entropy. This means that while approaching 100% efficiency may be possible, actual attainment is impossible due to these fundamental thermodynamic principles. Ultimately, the debate highlights the complexities of energy conversion and the role of thermodynamics in determining efficiency limits.
Soaring Crane
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Is the maximum efficiency possible in an energy conversion process that is not limited by the Second Law 100%?
 
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Soaring Crane said:
Is the maximum efficiency possible in an energy conversion process that is not limited by the Second Law 100%?
Yes. The second law of thermodynamics applies to the extraction of useful energy (work) from heat energy. It does not apply, for example, to converting electrical energy into work or work into electrical energy. Or from converting kinetic energy into spring potential energy. There is nothing that limits, as a matter of principle, the efficiency of that kind of conversion.

AM
 


No, the maximum efficiency possible in an energy conversion process is not 100% if it is not limited by the Second Law of Thermodynamics. The Second Law states that in any energy conversion process, some energy will always be lost in the form of heat or other forms of energy. This means that it is impossible to have a 100% efficient energy conversion process, as some energy will always be lost and cannot be converted into useful work. This concept is known as entropy, which is a measure of the disorder or randomness in a system. The Second Law states that the total entropy of a closed system will always increase over time, meaning that the system will become more disordered and less able to do useful work. Therefore, while it may be possible to approach 100% efficiency in an energy conversion process, it is not possible to achieve it due to the limitations imposed by the Second Law of Thermodynamics.
 

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