SU1086333A1 - Surface-type condenser - Google Patents

Abstract

SURFACE CONDENSER, comprising a housing with nozzles for supplying steam and condensate and non-condensable gases, chambers for supplying and discharging cooling water, a tube bundle with condensation zones, an air cooler and a zone of condensate cooling in the open from above in a tube plate. a box on the bottom of which vertical drain partitions are installed, and perforated sheets are located under the box, characterized in that, in order to intensify heat exchange, more efficient gas removal with multisection condenser, duct condensate cooling zone installed in each section with rigid fixation on one tube plate and with a gap relative to the other, above the ducts are installed horizontally condensate trays with a gap relative to the tube plate on which the duct is fixed, while the duct have lids fixed on the lower part of the horizontal trays with the formation of channels i for the passage of condensate, and the drain partitions of the boxes are placed in the middle e for (L zora between the lid of the box and the tube plate. OS 05 00 with CO

Description

M: i) O1) is not related to heat energy: Ike: i:: vi (; KCT can be used in coil and steam turbine devices. There are 110 110 5-core-capacitor, w / rn.nn.pj) az.1e11 in the root of pipes || ; th beam, night zone condensation zone; and: (.-; 1 hoolladitst | 1 | 1) e: iocT - ni; vi taco | -o nsrshlostnogo condensagora;:: ;; low efficiency truG; cha; 01H) air cooler due to poor heat exchange:, ne due to 11) 14) the air content in the steam I; o; i) the mixture, the main flow through the water, e): cool down to the place of condensation from the condensate. As a result, the condenser is sucked off for a week;) The mixture is cooled sufficiently with a content of time, which reduces the efficiency of the air operation; 5; 10 of this device, and this, in its own system, has a positive pressure, looiibiHiCHHio condenser and reduces the efficiency of the turboag () Egata as a whole. The surface condenser is known, it contains a housing with connections for the supply of char L for the drainage of kondepeat and 11 condensation) HC): nhhh-: –azone, supply and drainage chambers (; water), for the pipe) x boards, pipe nuchok with zones of conTeicaHjiH. air cooler, h and cooling zone l: n condensate, null in the form of a nrodo .- | ny bundle of pipes, placed in from:), 1st on top of the duct, iia bottom, from which vertical outlets are installed. D .1Ki, and under the com) module, a 1 le .1H hole is found (in such a capacitor, oTBi is improved); incomplete gas ihp and diminutiveness (.h: about crg1 (ryan1 e iiapa li och hnnvaemoy sl1e i:, i.), 4 (voz; 1 hohoh ad1: te: P) ra () is given with shmsl aro4ii, i high ::; e (1x |; lektiv 1os h.1o ten1OOPy.; en,. 1. s-h, 1; acquisitions and 1 hegexification of 1-е.: 1обоб 1епа by; ((;; fe); muddy yvub 1ench ra: oii NPP .chkl-oskspponppom yenolpeNII,;, ci: c :: IOiia. 1; iC - azchspan not.h, is achieved by the fact that it is ideal; ((L10l: xs.g.Cheaters. Containing 1: kp; , with iia-: py () i. steam supply and drainage ;: ICH rating and non-condensable gases, KiiMcpaMii n; JДBodyа with / per coolant} io.:: -; acren,: ENP1,1Y in pipe) x boards tr b1n11y nuchok with 3OiiaMH copdepeap ui, voz.: |, ukhooh.1ad1G1el n oh oh.tazhdapi condensate, made in the form of a longitudinal tube bundle, 1pl.0.014) in the open from the top to) on the day of the day, which blocked the vertical with; 1I15Nye non-urban, and iodine A holed sheet is laid down in the box, the box of the condensate cooling zone is installed in each of its sections with rigid fixation on one tube plate and with a gap relative to the other, horizontally condensed trays with a gap of tube milking are installed horizontally above the ducts, which box is fixed, when it is. box have zakrenlennye on the lower horizontal tray to form channels for the condensate nrohoda and weir boxes razmei1eny mid gap .mezhdu lid boxes and pipe milkings. FIG. 1 shows a capacitor, longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. 1. The surface condenser includes a housing 1 with an on-tube 2 steam supply, a branch pipe m 3 condensate drain and a 1 pipe 4 drain of non-condensable gases, supply and drain chambers 5 and 6 ("water lash and rotary kommer 7, fixed in terminal 8 and intermediate 9 pipe docks, pipe nook, including condensation zones 10, air cooler 11 and coolant / condensate condensate 12, respectively 12. Cooling condensate BbHto: iHena condensate to a tube bundle placed in duct 13, pas. krnika i) ko Both 13 zakregg. on set: 1 above the horizontal. Tray 17,; kestko za entrenno.m on one of the tube plates 8 and.ch 9 with a gap in relation to the other tube plate, on which the duct is rigidly fixed 13. Zazo) m-stand by condensate; ioTKOM 17, dnshets M, krnnkoy 16 boxes 13 and TpvoiHjiMH board. MG; 8 and 9 form the channels 18 and 19 for the condensate return flow to the perforated sheets 20. In the tube compartment there are also inclined condensate trays 21. The condenser operates as follows. a). Cooling water enters through the xy chamber 5 into the pipes of zone 10 of the mass storage tank, zone 1 of the air cooler and zone 12 of the condensate cooler and passed through it. It is discharged from the condenser through chamber 6. The steam from the turbipans through the tube 2 supplies steam to the condenser body 1 and condenses onto the surface of the tubes of zone 10. The condensation mixture is blown off to the internal channels of the tube bundle towards the outlet 4 of the exhaust pipe from building 1, which is condensed Hose and cool down onto the surface of the pipes of the air-cooler zone 11, and then onto the streams of supercooled condensate, drain from holes in the hole-like sheet 20. Steam condensate that flows from the surface of the pipes of zone 10 located ad area 12 condensate cooling trapped sloped trays 21 and withdrawn to the tube plate 8 and 9, the next, but the channel 18 inside the box 13 nostunaet zone 12 condensate cooling. Passage in intertubing

Claims (1)

A SURFACE CONDENSER, comprising a housing with steam inlet and condensate and non-condensable gas outlet pipes, cooling water inlet and outlet chambers, a tube bundle with condensation zones, an air cooler and a condensate cooling zone, made in the form of a longitudinal tube bundle, placed in pipe tubes open on top of the box, on the bottom of which vertical drain partitions are installed, and hole sheets are located under the box, characterized in that, in order to intensify heat transfer by more effect In order to remove gases during the multi-sectional design of the condenser, the boxes of the condensate cooling zone are installed in each section with rigid fastening on one tube plate and with a gap relative to the other; horizontally condensate trays are installed above the boxes with a gap relative to the tube plate on which the box is fixed, while the box have a cover attached to the bottom of the horizontal tray to form channels _for the passage of the condensate, and weir boxes placed in the middle of the gap between the boxes and tube plate in the lid.