Claims
- 1. An improved single-row air-cooled steam condenser bundle with identical oblong heat exchange tubes arranged in a two-pass mode by grouping adjacent tubes into identical multiple sets positioned side-by-side where each tube-set has one centrally located and end-plugged 2nd-pass tube with a plurality of 1st-pass tubes symmetrically placed on either side of it with the steam entering one end of the 1st-pass tubes and exiting at the other end only partially condensed then entering the adjoining 2nd-pass tube to be completely condensed with its noncondensible gases induced to flow to the closed far-end of this 2nd-pass tube from whence the gases are removed by suction means.
- 2. A multiplicity of the claim 1 tube sets assembled to form a bundle installed in an A-frame with a main steam supply header at the entrance to the 1st-pass tubes, a middle header at the end of the 1st-pass tubes serving also as a steam supply header to the 2nd-pass tubes, suitable condensate draining and collecting means at the bottom of the bundle, a noncondensible gas mixture flow-control orifice located at the end of each 2nd-pass tube that is connected downstream to a bundle rear header pipe manifold that in turn is connected to a fan cell pipe manifold which terminates at the suction of a 1st-stage ejector while external fan means move the cooling media ambient-air over the extended surfaces of the oblong steam condensing tubes.
- 3. The bundle of claims 2 have their noncondensible gases leaving each 2nd-pass tube flow through an individual fixed orifice whose diameter depends of the location of the 2nd-pass tube in relation to the center of the bundle and the bundle location in reference to the 1st-stage ejector.
- 4. The bundles of claims 2 installed in an A-frame configuration and served by a single fan with the noncondensible gas withdrawal from each bundle connected to one 1st-stage ejector that serves only the bundles of that one fan cell.
- 5. The bundles of claim 2 installed in an A-frame configuration and served by a single fan with the noncondensible gas withdrawal from all the bundles on one side of the A-frame connected to one 1st-stage ejector and the noncondensible gas withdrawal from all the bundles on the other side of the A-frame connected to a second 1st-stage ejector, both ejectors serving only that one fan cell.
- 6. The bundles of claims 2 oriented such that the main steam supply header is at the apex of the A-frame with the steam flowing downward in the 1st-pass tubes.
- 7. The bundles of claims 2 oriented such that the main steam supply header is at the bottom of the A-frame with the steam flowing upward in the 1st-pass tubes.
- 8. A multiplicity of the claim 1 tube sets assembled to form a bundle installed in and A-frame with a main steam header at the entrance to the 1st-pass tubes, a steam flow-equalizing baffle at the exit of the 1st-pass tubes, a middle header at the end of the 1st-pass tubes serving also as a steam supply header to the 2nd-pass tubes, suitable condensate draining and collecting means at the bottom of the bundle, a non-condensible gas mixture flow-control orifice located at the end of each 2nd-pass tube that is connected downstream to a bundle rear header pipe manifold that in turn is connected to a fan cell pipe manifold which terminates at the suction of a 1st-stage ejector while external fan means move the cooling media ambient-air over the extended fin surfaces of the oblong steam condensing tubes.
- 9. The bundle of claim 8 with a steam flow-equalizing baffle plate installed at the end of the 1st-pass tubes that is custom shaped to pass the desired steam flow-through rate of each 1st-pass tube or group of tubes.
- 10. The bundle of claims 3 have their noncondensible gases leaving each 2nd-pass tube flow through an individual fixed orifice whose diameter depends of the location of the 2nd-pass tube in relation to the center of the bundle and the bundle location in reference to the 1st-stage ejector.
- 11. The bundles of claims 8 installed in an A-frame configuration and served by a single fan with the noncondensible gas withdrawal from each bundle connected to one 1st-stage ejector that serves only the bundles of that one fan cell.
- 12. The bundles of claims 8 installed in an A-frame configuration and served by a single fan with the noncondensible gas withdrawal from all the bundles on one side of the A-frame connected to one 1st-stage ejector and the noncondensible gas withdrawal from all the bundles on the other side of the A-frame connected to a second 1st-stage ejector, both ejectors serving only that one fan cell.
- 13. The bundles of claims 8 oriented such that the main steam supply header is at the apex of the A-frame with the steam flowing downward in the 1st-pass tubes.
- 14. The bundles of claims 8 oriented such that the main steam supply header is at the bottom of the A-frame with the steam flowing upward in the 1st-pass tubes.
- 15. A multiplicity of the claim 1 tube-set assembled to form a bundle whose thermal performance characteristics and whose mass of uncondensed steam flowing in the 1st-pass tubes are established by the number of 2nd-pass tube-sets that are incorporated into the bundle, with the number varying from one tube per bundle to half of the installed tubes in the bundle.
- 16. A steam condensing bundle comprising a plurality of air-cooled heat exchange tubes, each tube having an input end and an output end with a generally oblong shaped cross sectional configuration, means to support the tubes inclined in a parallel side by side array of tubes, the array of tubes of the bundle including a plurality of 2nd-pass tubes and a plurality of 1st-pass tubes with the 2-pass tubes located between the 1st-pass tubes to form symmetric sets of tubes each set having a central 2nd-pass tube and 1st-pass tube means on opposite sides thereof, the input ends of the 1st-pass tubes located to receive steam and noncondensible gases for partially condensing the received steam in the 1st-pass tubes, the input ends of the 2nd-pass tubes being located adjacent to the output ends of the 1st-pass tubes to symmetrically receive the partially condensed steam and noncondensible gases from the 1st-pass tubes for condensing the received remaining steam in the 2nd-pass tubes, each 2nd-pass tube having vacuum means associated with its output end to remove the noncondensible gases.
BACKGROUND OF THE INVENTION
This application is a continuation in-part application of copending U.S. patent application Ser. No. 07/597,485 filed Oct. 10, 1990.
US Referenced Citations (2)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1370321 |
Oct 1974 |
GBX |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
597485 |
Oct 1990 |
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