Solution Found!
A promising method of power generation involves collecting
Chapter 6, Problem 125P(choose chapter or problem)
A promising method of power generation involves collecting and storing solar energy in large artificial lakes a few meters deep, called solar ponds. Solar energy is absorbed by all parts of the pond, and the water temperature rises everywhere. The top part of the pond, however, loses to the atmosphere much of the heat it absorbs, and as a result, its temperature drops. This cool water serves as insulation for the bottom part of the pond and helps trap the energy there. Usually, salt is planted at the bottom of the pond to prevent the rise of this hot water to the top. A power plant that uses an organic fluid, such as alcohol, as the working fluid can be operated between the top and the bottom portions of the pond. If the water temperature is \(35^{\circ}near the surface and \(80^{\circ} \mathrm{C}\) near the bottom of the pond, determine the maximum thermal efficiency that this power plant can have. Is it realistic to use 35 and \(80^{\circ} for temperatures in the calculations? Explain.
Equation Transcription:
80°C
35°C
Text Transcription:
80 degree celsius
35 degree celsius
Questions & Answers
QUESTION:
A promising method of power generation involves collecting and storing solar energy in large artificial lakes a few meters deep, called solar ponds. Solar energy is absorbed by all parts of the pond, and the water temperature rises everywhere. The top part of the pond, however, loses to the atmosphere much of the heat it absorbs, and as a result, its temperature drops. This cool water serves as insulation for the bottom part of the pond and helps trap the energy there. Usually, salt is planted at the bottom of the pond to prevent the rise of this hot water to the top. A power plant that uses an organic fluid, such as alcohol, as the working fluid can be operated between the top and the bottom portions of the pond. If the water temperature is \(35^{\circ}near the surface and \(80^{\circ} \mathrm{C}\) near the bottom of the pond, determine the maximum thermal efficiency that this power plant can have. Is it realistic to use 35 and \(80^{\circ} for temperatures in the calculations? Explain.
Equation Transcription:
80°C
35°C
Text Transcription:
80 degree celsius
35 degree celsius
ANSWER:
Step 1 of 2
The equation for the maximum thermal efficiency of power plant is as follows:
