초록 ▼

Heat storage apparatus comprising at least one thermal store (300) comprising a chamber (301) having a gas inlet (306), a gas outlet (307), and a gas-permeable thermal storage media (303) disposed therebetween, the apparatus being configured such that, during operation, the flow path of a gas flowin

Heat storage apparatus comprising at least one thermal store (300) comprising a chamber (301) having a gas inlet (306), a gas outlet (307), and a gas-permeable thermal storage media (303) disposed therebetween, the apparatus being configured such that, during operation, the flow path of a gas flowing through the chamber (301) from inlet (306) to outlet (307) for transfer of thermal energy to or from the storage media (303) can be selectively altered in response to the progress of the thermal transfer, thereby enabling the flow path to bypass inactive upstream or downstream regions of the storage media where thermal transfer is complete or minimal, so as to minimize the pressure drop across the storage media. A baffle system (305) in a main flow passageway (312) may be used to control the gas flow path.

대표청구항 ▼

1. Heat storage apparatus comprising at least one thermal store comprising a chamber having a gas inlet and a gas outlet provided at respective ends and a gas-permeable thermal storage media disposed therebetween so that a gas follows a gas flow path lengthwise through the storage media along the ch

1. Heat storage apparatus comprising at least one thermal store comprising a chamber having a gas inlet and a gas outlet provided at respective ends and a gas-permeable thermal storage media disposed therebetween so that a gas follows a gas flow path lengthwise through the storage media along the chamber from the gas inlet to the gas outlet, wherein the storage media is divided into separate spaced respective downstream layers along the length of the chamber capable of being selectively isolated from or exposed to the gas flow path,the apparatus being configured such that, during operation, the flow path of a gas flowing through the chamber from inlet to outlet for transfer of thermal energy to or from the storage media can be selectively altered depending upon progression of a thermal front within the storage media that is progressing along the length of the chamber, and wherein, during operation, the flow path of the gas is altered to bypass layers of the storage media within the chamber that are downstream of the thermal front. 2. Heat storage apparatus according to claim 1, wherein the chamber is provided with at least one main flow passageway extending alongside the storage media and with one or more flow controllers capable of selectively altering the gas flow path within the main flow passageway so as to alter the flow path in the storage media. 3. Heat storage apparatus according to claim 2, wherein the apparatus is configured, during operation, to divert the gas flow path from the gas flow passageway to different downstream regions, in turn, of the storage media. 4. Heat storage apparatus according to claim 2, wherein only a single main flow passageway is provided connecting the gas inlet to the gas outlet and comprising a central passageway extending lengthwise along the chamber through the storage media. 5. Heat storage apparatus according to claim 2, wherein minor flow passageways extend laterally away from the main flow passageway at a plurality of respective downstream positions along the length of the main flow passageway, permitting lateral gas flow through the storage media. 6. Heat storage apparatus according to claim 2, wherein plenums are provided extending laterally away from the main flow passageway at a plurality of respective downstream positions along the length of the main flow passageway, permitting lateral gas flow through the storage media. 7. Heat storage apparatus according to claim 2, wherein a main flow passageway is obstructed by a flow controller of the one or more flow controllers comprising at least one baffle system adapted to move along and block the passageway so as to divert a gas flow path into or out of the storage media. 8. Heat storage apparatus according to claim 7, wherein the baffle system is adapted to block the passageway so as to divert a gas flow path into the storage media at an upstream face of the baffle system. 9. Heat storage apparatus according to claim 8, wherein the positions of the respective upstream and downstream faces are independently adjustable wherein the baffle system is adapted to block the passageway so as to permit a gas flow path to emerge from the storage media at a downstream face of the baffle, and wherein the positions of the respective upstream and downstream faces are independently adjustable. 10. Heat storage apparatus according to claim 7, wherein the baffle system is adapted to block the passageway so as to permit a gas flow path to emerge from the storage media at a downstream face of the baffle. 11. Heat storage apparatus according to claim 1, further comprising a control system for selectively altering the gas flow path. 12. Heat storage apparatus according to claim 1 comprising an upright chamber with one or more substantially vertical main flow passageways extending lengthwise along the chamber, the apparatus being arranged such that the gas inlet is provided at the top of the chamber where it is set up as a hot inlet or at the bottom of the chamber where it is set up as a cold inlet. 13. Heat storage apparatus according to claim 12, wherein the thermal storage media is arranged in respective substantially horizontal thermal storage layers capable of being selectively exposed to or isolated from the gas flow path. 14. Heat storage apparatus according to claim 1, wherein the gas flow path is altered via movement of one or more flow controllers. 15. A method of operating heat storage apparatus comprising at least one thermal store comprising a chamber having a gas inlet and a gas outlet provided at respective ends and a gas-permeable thermal storage media disposed therebetween, wherein gas follows a gas flow path lengthwise through the storage media along the chamber from the gas inlet to the gas outlet for transfer of thermal energy to or from the storage media, wherein the storage media is divided into separate spaced respective downstream layers along the length of the chamber capable of being selectively isolated from or exposed to the gas flow path, and the flow path of the gas is selectively altered dependent upon progression of a thermal front within the storage media that is progressing along the length of the chamber, and wherein, during operation, the flow path of the gas is altered to bypass layers of the storage media within the chamber that are downstream of the thermal front. 16. The method according to claim 15, wherein, during operation, the flow path is altered to bypass regions of the storage media upstream of the thermal front, in which regions thermal transfer is substantially complete. 17. The method according to claim 15, wherein: during operation, the flow path is altered in a first alteration to bypass regions of the storage media upstream of the thermal front, in which regions thermal transfer is substantially complete;during operation, the flow path is altered in a second alteration to bypass regions of the storage media downstream of the thermal front, in which regions thermal transfer is minimal; andthe flow path is altered such that the flow path only passes through a region of the storage media localised around the thermal front. 18. The method according to claim 17, wherein the first and second path alterations are carried out independently of one another. 19. The method according to claim 15, wherein the gas flow path is altered via movement of one or more flow controllers. 20. Heat storage apparatus comprising: one or more flow controllers; andat least one thermal store comprising a chamber having a gas inlet and a gas outlet provided at respective ends and gas-permeable thermal storage media disposed therebetween so that a gas follows a gas flow path lengthwise through the storage media along the chamber from the gas inlet to the gas outlet,wherein the storage media is divided into separate spaced respective downstream layers along the length of the chamber capable of being selectively isolated from or exposed to the gas flow path via movement of the one or more flow controllers,the apparatus being configured such that, during operation, the flow path of a gas flowing through the chamber from inlet to outlet for transfer of thermal energy to or from the storage media can be selectively altered, via the movement of the one or more flow controllers, depending upon progression of a thermal front within the storage media that is progressing along the length of the chamber, and wherein, during operation, the flow path of the gas is altered to bypass layers of the storage media within the chamber that are downstream of the thermal front.