TH13132B - Steam condensing module With a single stack ventilated condenser - Google Patents

Abstract

Air-cooled condensing module With a condenser that has Drain as a single unit There is one or more rows of steam headers, condensation pipes. Between the steam header and (typically lower) the co-condensed header The modules are still there, at least condenser With a row of drainage Or a well-positioned deposition meter Next to the condensation tube that will connect the bottom header. With vent header The demolition pipe may be the same or larger diameter than that of the condenser.

Claims (5)

1.Cooled condenser condenser module with air cooled condenser. The drain is a single unit containing the following components: (a) at least one row of long condensation tubes. Which has one end of the area Is connected to the steam header for the steam through that section: (b) the co-condensation header is interrupted from the said steamhead. And connect with At the second opposite end of the condensation pipe, the water vapor passing through the condensation pipe is partially condensed there. The excess steam, which has not been condensed, flows continuously through the condensation pipe. And into the condensed header The co-condensing headers are configured without the clash plate or chamber in it. Which will separate or divide such rows of Such condensation pipes; (c) At least one row of the next vented condenser duct. And is generally positioned parallel to the condensation tube. Inside the condenser module, the pipe of the machine Condensation with such a vent Which has the southern end connected to the aforementioned condensing header as a passage through that portion of the non-condensed excess steam for the complete condensation of that part; At the aforementioned south end of a vented condenser pipe It was cut diagonally. Or tapered, thus forming at an angle to the axial axis of the condenser pipe. (D) a vent header connected to the top area of the vented condenser duct and (e) a path for the flow of cooled air through the condenser module 2. Air cooled condenser module. As stated in Claim 1, which the bottom end of the Of the condensate ducts being vented The condenser module is cut at an angle equal to 45 degrees relative to the longitudinal axis of the pipe. 3. Air cooled condenser module. As outlined in claim 2, the joint condensed header It is located below or under the steam header. 4. Air cooled condenser module. As noted in claim 3, those modules are connected in parallel through the steamhead. And the co-condensing header. 5. Air cooled condensing unit. As noted in claim 3, it still consists of three rows of condensing tubes. And one row of vented condenser tubes in condenser module. 6. Air cooled condenser module. As stated in claim 3, the rows of vented condensate tubes are It is positioned above the row of condensation tubes. 7. Air cooled condenser module. As stated in claim 3, that row of vented condenser is positioned between the middle of the row. 8. The condensation module is cooled by air. As stated in claim 3, the diameter of the vented condenser pipe is Will be equal to the largest diameter 9. Condensate condenser module that is cooled by air. As stated in claim 3, the diameter of the vented condenser pipe is Larger than the diameter of the machine pipe Condensation 1 0. Air cooled condensing module As stated in claim 9, the diameter of the vented condenser pipe is Will be twice the diameter Of the aforementioned condenser pipe 1 1. Air cooled condenser module As noted in claim 3, it still includes a condensate outlet. Connected to the co-condensing header, the said outlet is scaled To remove any condensate that has been collected from the Condensed together such 1 2. Air cooled condenser module As set out in claim 11, which the header vent It is generally spanned parallel to the said steamhead 1. 3. Air cooled condenser module As stated in claim 12, the vented header will go outside to the said steamhead 1. 4.Air cooled condenser module As set out in claim 13, the said vent header will go into the said steamhead 1. 5.A condenser condenser module with air cooled condenser. The drain is a single unit containing the following components: (a) at least one row of long condensation tubes. Which has one end of the area Is connected to the stimhead for the steam passage through that section: (b) the co-condensation header that is interrupted from the said steamhead. And connect with At the second opposite end of the condensation pipe, the water vapor passing through the condensation pipe is partially condensed there. The excess steam, which has not been condensed, flows continuously through the condensation pipe. And into the co-condensation header The co-condensing headers are configured without the clash plate or chamber in it. Which will separate or divide such rows of Such condensation pipes; (c) At least one row of the next vented condenser duct. And is generally positioned sized to the condensation pipe. Inside the condenser module, the pipe of the machine Condensation with such a vent Which has the southern end connected to the aforementioned condensing header as a passage through that portion of the non-condensed excess steam for the complete condensation of that part; (d) A vent header connected to the upper area of the vented condenser pipe, (e) a passage for the passage of cooled air through the condenser module, and (f) condensing pipe head. The condensation vessels and the vented condenser tubes are sized so that the steam entering the condensation tubes is drained. Have a lower speed than the speed The steam that limits critical counter-flow flow for vented condenser ducts to reduce the steam velocity in the vented condenser ducts and allow condensation to form in the apparatus ducts. A tight, vented loop to return to the condensation header and where the vented condenser pipe is made to a Larger than the diameter of such condensing pipes.