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Carnot Engine: Heat Pump: Work delivered: Work input: A Heat Pump is a “reverse-action” Carnot Engine: For, say, T H = 350 K, and T C = 280 K, work delivered.

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Presentation on theme: "Carnot Engine: Heat Pump: Work delivered: Work input: A Heat Pump is a “reverse-action” Carnot Engine: For, say, T H = 350 K, and T C = 280 K, work delivered."— Presentation transcript:

1 Carnot Engine: Heat Pump: Work delivered: Work input: A Heat Pump is a “reverse-action” Carnot Engine: For, say, T H = 350 K, and T C = 280 K, work delivered is only 20% of Q H, the thermal energy taken from the hot source; 80% is “dumped”. For the same T H and T C, a work input W results in a transfer of thermal energy Q H = 5 x W. Five times more heat than the energy input!

2 T C = 280 K, or slightly lower, is a realistic expected air temperature in wintertime. However, if one could have T C equal, e.g., 315 K, then the heat pump from the preceding slide would deliver not five times more heat than the work input W, but TEN times more! This is exactly the idea of a “Shallow Geothermal Heating System” – even a relatively shallow well may be a good “cold source” of such temperature.

3 The light blue areas are the regions in which there are good conditions for installing shallow geothermal heating systems – in fact, almost everywhere in the US they may be used!

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