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Goal

receiver cycle
(heat pump)

To develop a reversible heat engine, which circulates a gas in a closed circuit between two insulating cylinders of different volumes, through two heat exchangers, in order to approach the Carnot cycle.

This machine can be used to design heat pumps or refrigerators without greenhouse gases such as R93, as there is no phase change. It could also be used as a motor, producing mechanical energy by transferring heat from a hot source to a cold source.

On a similar principle, the Stirling engine has been around for two centuries, in this engine the cylinders are also the heat exchangers, the innovative idea here is to transfer heat as the gas passes from one cylinder to another.

In the theoretical machine that Sadi Carnot used to describe his ideal cycle, the hot and cold sources must act alternately in the same place, which seems technically unfeasible. The use of two cylinders and two heat exchangers makes it possible to imitate this machine, but induces friction and dead volume.

Ideal cycle

Motor cycle

1 Adiabatic compression: The gas is compressed in the small cylinder, increasing its temperature. the large cylinder remains empty
2 Isothermal expansion: The gas expands from the small cylinder to the large cylinder, receiving heat in the first heat exchanger. the small cylinder empties completely while the large cylinder partially fills
3 Adiabatic expansion: The gas continues to expand in the large cylinder, reducing its temperature. the small cylinder remains empty
4 Isothermal compression: Gas is compressed from the large cylinder to the small one, and heat is extracted in the second heat exchanger. the large cylinder empties completely while the small one fills completely

Receiver cycle

1 Adiabatic expansion: The gas is expanded in the small cylinder, reducing its temperature. the large cylinder remains empty
2 Isothermal expansion: The gas expands from the small cylinder to the large cylinder, capturing heat in the first heat exchanger. the small cylinder empties completely, while the large cylinder fills completely
3 Adiabatic compression: The gas is compressed in the large cylinder, increasing its temperature. the small cylinder remains empty
4 Isothermal compression: The gas is compressed from the large cylinder to the small one, releasing heat in the second heat exchanger. the large cylinder empties completely while the small one partially fills

Thermodynamics

Operating temperatures

The extreme temperatures reached by the gas depend on the nature of the gas, its initial pressure, and the stroke of the pistons during adiabatic phases. A machine capable of modifying the latter parameter would allow working with variable temperatures.

Heat transfer

The realization of isothermal phases in the ideal cycle requires the matching of :

  • the nature of the gas and its initial pressure,
  • the characteristics of the heat exchangers, the difference between the temperatures of the hot and cold sources and the extreme temperatures of the gas,
  • the volume ratio of the two cylinders.

Mechanics

The technical possibilities for animating the pistons are numerous, particularly for the receiver cycle, solenoids, camshafts, cylinders … but a simple 4-bar mechanism seems promising for the realization of an efficient low tech heat pump:

Heat pump animated by two symmetrical 4-bar mechanisms
Heat pump animated by two symmetrical 4-bar mechanisms

Is it free?

Totally! The description of this invention is published here under Creative Commons Zero license, however I cannot guarantee that all or part of this machine is not currently protected by a patent.

I sincerely hope that this idea will help reduce greenhouse gases emissions, and I'm convinced that making it free is the best thing I can do to facilitate its development and rapid spread.

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