METHOD FOR RECOVERING ENERGY FROM DRY ICE AT INFRA-ATMOSPHERIC PRESSURE

Abstract

A method of recovering energy produced by the change of phase of dry ice using a device having an enclosure (2) containing dry ice at an infra-atmospheric pressure and at a solidification temperature corresponding to the infra-atmospheric pressure; and a primary energy recovery circuit (3), in which a heat transfer fluid circulates, passing through the enclosure. The method involves passage of the heat transfer fluid into the primary circuit (3), this step causing the heating of the dry ice and its change of phase into CO2 and the cooling of the heat transfer fluid; extraction of the CO2 contained in the enclosure (2); and substantially continuous lowering of the pressure of the enclosure (2) to an infra-atmospheric pressure.

Claims

1. A method of recovering energy produced by the change of phase of dry ice, said method being implemented by a device (1) comprising: an enclosure (2) containing the dry ice at an infra-atmospheric pressure; a primary energy recovery circuit (3), in which a heat transfer fluid circulates, passing through the enclosure (2); the method comprising the following steps: passage of the heat transfer fluid into the primary circuit (3), this step causing the heating of the dry ice and its change of phase into CO.sub.2 and the cooling of the heat transfer fluid; extraction of the CO.sub.2 contained in the enclosure (2); a substantially continuous lowering of the pressure of the enclosure (2) to an infra-atmospheric pressure.

2. The method according to claim 1, wherein the CO.sub.2 extracted from the enclosure (2) is gaseous.

3. The method according to claim 1, comprising conveyance of the CO.sub.2 extracted from the enclosure (2) into a heat exchanger (9) in which it transfers part of its heat to a heat transfer fluid circulating in a secondary circuit (14).

4. The method according to claim 1, comprising substantially continuously measuring the pressure in a suction line (7) by a pressure sensor (8).

5. The method according to claim 4, comprising transmission of the pressure measured by the pressure sensor (8) to a central unit.

6. The method according to claim 5, comprising regulating the pressure in the enclosure (2) and in the suction line (7) by a vacuum pump (11) located at one end of the suction line (7).

7. The method according to claim 1, wherein the pressure in the enclosure (2) is about 0.00055 bar absolute.

8. An energy recovery device (1) configured to implement the energy recovery method according to claim 1, said device (1) comprising: an enclosure (2) capable of containing dry ice at an infra-atmospheric pressure and at a solidification temperature corresponding to the infra-atmospheric pressure; a primary energy recovery circuit (3), in which a heat transfer fluid circulates, passing through the enclosure (2); a suction line (7) enabling the CO.sub.2 to be extracted from the enclosure (2), wherein the suction line (7) is provided with means capable of extracting the CO.sub.2 and of enabling a continuous lowering of pressure in the enclosure (2) to an infra-atmospheric pressure.

9. The device (1) according to claim 8, comprising a heat exchanger (9) through which a suction line (7) passes, a secondary circuit (14) also passing through the heat exchanger (9), the suction line (7) further comprising a pressure sensor (8) and the means capable of extracting the CO.sub.2 being a vacuum pump (11).

10. The device (1) according to claim 9, comprising a central unit configured to process information from the pressure sensor (8) and to regulate extraction power of the vacuum pump (11).

Description

[0060] The method and device as described enable a recovery of energy from dry ice that is much more efficient, by advantageously exploiting the thermodynamic properties of carbon dioxide.