Claims
- 1. A method of sealing a regenerative heat exchanger including a housing, a rotor located in the housing and having a plurality of heat storage bank chambers, and a means for separating heat exchange media and further including a plurality of peripheral and radial barrier chambers, said method comprising the steps of:
- providing stationary flat arcuate peripheral seals resiliently engaging a perimeter of the rotor at hot and cold sides thereof for delimiting the circumferentially arranged barrier chambers;
- providing stationary flat radial seals at the hot and cold sides of the rotor for covering at least one heat-storage bank chamber;
- determining localized pressure relationships in the heat exchanger at respective sealing sites; and
- effecting appropriate exhaust, blocking, blow-out and venting operations in response to said localized pressure relationships.
- 2. A regenerative heat exchanger for use in power plants and industrial furnaces, the heat exchanger comprising:
- a housing;
- a rotor located in said housing and having a plurality of heat storage bank chambers; and
- means for separating heat exchange media, wherein said separating means comprises a plurality of peripheral and radial barrier chambers;
- wherein said rotor has hot and cold sides, and wherein said heat exchanger further comprises stationary flat arcuate peripheral seals resiliently engaging a perimeter of said rotor at said hot and cold sides for delimiting the circumferentially arranged barrier chambers, and stationary flat radial seals arranged on said hot and cold sides and covering at least one heat storage bank chamber; and
- wherein said radial seals and said peripheral seals form a continuous sealing surface, which lies in a common plane and which has a continuous transitional area at locations where they join each other.
- 3. The regenerative heat exchanger of claim 2, wherein said peripheral seals comprise sealing strips which have an arcuate length equal to at least a double arcuate length of a heat storage bank chamber.
- 4. The regenerative heat exchanger of claim 2, wherein said radial seals are resilient.
- 5. The regenerative heat exchanger of claim 2, wherein said peripheral barrier chambers comprise an upper barrier chamber and a lower barrier chamber.
- 6. The regenerative heat exchanger of claim 5, further comprising a ring seal arranged between said upper and lower barrier chambers.
- 7. The regenerative heat exchanger of claim 2, further comprising suction means communicating with said peripheral and radial barrier chambers.
- 8. The regenerative heat exchanger of claim 2, further comprising a barrier gas conduit which is connected with said peripheral and radial barrier chambers.
- 9. The regenerative heat exchanger of claim 2, further comprising a flushing gas conduit which is connected with said radial barrier chambers.
Priority Claims (1)
Number |
Date |
Country |
Kind |
42 30 133.5 |
Sep 1992 |
DEX |
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Parent Case Info
This application is a continuation-in-part of application Ser. No. 08/118,838, filed Sep. 8, 1993, for "Regenerative Heat Exchanger and Method of Operating the Same" now abandoned.
US Referenced Citations (4)
Continuation in Parts (1)
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Number |
Date |
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Parent |
118838 |
Sep 1993 |
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