How Do Steam Temperature and Exhaust Temperature Affect Steam Engine Efficiency?

AI Thread Summary
Maximizing steam temperature and minimizing exhaust temperature are crucial for enhancing the efficiency of a steam engine, as suggested by the principles of the Carnot Cycle. Understanding the different stages of the Carnot Cycle can provide insights into optimizing the steam engine's performance. By identifying how these stages relate to the steam engine's operation, one can determine necessary adjustments for improved efficiency. This approach emphasizes the importance of thermal management in steam engine design. Ultimately, applying Carnot Cycle concepts can lead to a more effective steam engine.
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Homework Statement





Homework Equations


You are designing a steam engine and you want to make it as efficient as
possible in terms of the energy used to run it and the useful energy it can
produce. What do you want to maximize and minimize in terms of the
steam temperature and the exhaust temperature? (hint: Think Carnot Cycle)


The Attempt at a Solution



Maximize steam temperature / minimize exhaust temperature?
 
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Suggestion : look more into detail at the different steps of a Carnot Cycle. Then, try to recognize these stadia in your steam engine. Finally, figure out why the Carnot cycle is "so efficient" and apply this knowledge onto your example here.

This is the way you should proceed. So, in your next post, you will have written the different stages of the Carnot cycle and you will have linked them to your steam engine. Then you will know what this engine actually is supposed to do and which process needs to be adapted to optimize the device.

marlon
 

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