US2392638A

US2392638A - Heat exchange apparatus

Info

Publication number: US2392638A
Application number: US530784A
Authority: US
Inventors: Robert A Bowman; John P Rathbun
Original assignee: Westinghouse Electric Corp
Current assignee: CBS Corp
Priority date: 1944-04-13
Filing date: 1944-04-13
Publication date: 1946-01-08
Anticipated expiration: 1963-01-08

Description

Jan. 8, 1946. RA. BWMAN ETAL HEAT EXCHANGE APPARATUS Filed April 15, 1944 III wlTNEssEs: WT. VM

INVENTOR Rosi/er A. BOWMAA/a//d Patented Jan. 8, 1946 yUNITED STATES PATENT OFFICE HEAT EXCHANGE APPARATUS Robert A. Bowman, Drexel Hill, and John P.

Rathbun, Prospect Park, Pa., assignors to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Application April 13, 1944, Serial No. 530,784

2 claims. (ci. 257-32) This invention relates to heat exchangers, more particularly to heat exchangers wherein provision is made for subcooling the condensate, and it has for an object the provision of improved apparatus of this character.

The trend in high pressure heater practice is to use a subcooling section in order to increase the heat recovery from the bled steam and thus reduce the quantity of steam required. The subcooler should be confined to the first tube pass, but the amount of surface required is normally very much less than the surface in this pass. While a longitudinal baffle may be provided to segregate as much of the rst pass surface as is required for subcooling duty, this is not satisfactory as only part of the feed water is thus utilized for subcooling and the rise in temperature of the feed water in the subcooler is thus increased, with a resultant penalty on the mean temperature diiierence between the cooling water and thewcondensate in this section. This, of course, increases the amount of surface required in both the subcooling and condensing sections.

In our prior Patent No. 2,299,455, granted October 20, 1942, to Westinghouse Electric & Manufacturing Company, we stated that the most ecoy nomical arrangement is to separate off by a longitudinal partition all of the rst tube pass and utilize the required part of this pass nearest to' the inlet tube plate as the subcooler. It is, of course, necessary to flood this subcooler, and since the rest of the rst pass tubes which are in the condensing section must not be flooded, means had to be provided for accomplishing this double purpose.

We proposed draining the condensate from the condensing section into a small hotwell provided with a suitable float control which actuated .a valve in the condensate discharge line from the subcooling section. This resulted in the outlet pressure from the subcooling section Vbeing; reduced a sumcient amount to account for the static head between the condensate level in the hotwell and the condensate water level in the subcooling section. Normally, this pressure differential would cause steam leakage from the condensing section into the subcooling section through the transverse separating partition, which would obviously defeat the purpose of the subcooler.

To overcome-this last-mentioned difficulty, we proposed collecting condensate on the longitudinal partition separating the first pass tubes from the remaining tubes of the heat exchanger and draining it through a port in the partition positioned relatively close together. These transversely extending partitions constitute means for segregating the inlet portion of the 'rst pass from the remainder of the pass, the

.clearance holes for the tubes in the transverse partitions, as well as any clearance space between these partitions and the shell.

We have found in certain extreme situations, for example, where the tube bundle is unusually long or the space between the longitudinal partition and the tubes thereabove is so small as to to the space between two transverse partitions 55 undesirably limit the height of the dam for retaining condensate on the partition, that the condensate so retained on the partition is unable to flow back to the space between the two transverse partitions which segregate the subcooler, due to the pressure drop occurring between the transverse partitions and the dam.

To take care of these extreme situations we `now propose providing a conduit in the lower part of the shell for flow of condensate from the upper surface of the horizontal partition adjacent the dam to the space between the pair of transverse partitions, at the same time closing the top of the space between these transverse partitions to prevent entryof steam thereto from above the horizontal partition.

Therefore, an object of the present invention is to provide improved means for sealing the subcooling section of a horizontal heat exchanger.

`These andother objects are effected by the invention as will be apparent from the following description and claims taken. in connection with the accompanying drawing, forming a part o this application, in which:

Fig. l is a longitudinal sectional view throug a heat exchanger embodying the principles of theinvention; and,

Fig. 2 is a transverse sectional view taken along the line II--n of Fig. 1, looking in the direction of the arrows.

In the drawing there is shown heat exchange apparatus comprised by a shell l0 having a steam inlet Il and a condensate outlet i2, the latter communicating with a hotwell I3. A plurality of U-tubes it extend longitudinally of the shell and have their terminal portions supported at one end thereof by a stationary tube plate I5,

A section 25'comprised by the inlet or coldv portion oi the ilrst tube pass is segregated-from the remaining portion of that pass by a pair of slightly-spaced, transversely-extending, vertical partitions`26 and 21. extends'longitudinally of the shell and separates the first pass tubes from the tubes of the remaining passes. The horizontal partition is provided at its innermost free end with`a transversely-y extending dam member 3I and is sealed at its longitudinal edges by suitable means, such asv the Lamiflex seal 32 (Fig. 2).

Where the apparatus includes a desuperheating A horizontal partition 28' section, such as shown at 34, there may be provided an additional horizontal baffle in vertically-spaced relation with respect to the baille 28 in orderto prevent iine particles of condensate l lying on the baiile 28 being picked up and deposited on the tubes of the desuperheating section by the steam flowing through the latter.

Preferably, suitable bailies 3B extending transversely of the tubes I4, are provided throughout the apparatus to obtain maximum contact of the steam with the condensing'and cooling surface.

I Similarly, a baille 31 may be provided in the path of steam entering at the inlet II to prevent erosion of tubes by impingement of high velocity steam.

The hotwell I3 is located at the condensing side of the transverse partitions 2B and 21, but is,.in communication with the subcooler 25 through a conduit 38. In order that the subcooler 25 may be maintained completely tiooded at all times, there is provided an automatic float valve contrpl comprised by a float housing 40 in communitationl with .the bottom of the vhotweu through the conduit 4I and vented to the interior of the condensing portion of the apparatus through the conduit 42. A float 43, disposed Within the housing 40, is carried at one end of the lever '44, the

latter being pivoted at to the housing 40 with its free end projecting outwardly of the latter. This free end is pivotallyconnected through the link 46 with a lever 41 pivotally'mounted at 48 on the arm 49 of the valve housing 50, the latter constituting a section of the condensate discharge conduit 5I. The lever 41 is operatively connected through the valve rod 52 with a control valve (not shown) mounted in the valve housing 50.

It will be apparent from consideration of Fig. 2 that upon increase in the amount of condensate in the hotwell I3, the fioat 43 in the housing 40 will be raised, thereby moving the valve rod 52to the left to open the valve in the housing and permit discharge of condensate from the subcooling section 25, with which the condensate discharge conduit 5I communicates. The condensate discharged through the conduit 5I will be replaced by condensate from the hotwell I3 until 'the level in the latter has fallen enough to cause the oat 43 to drop suiliciently to close the valve in the housing A5I), thereby shutting off the discharge flow of condensate from the subcooler.

The last section of the condensing portion of the apparatus, considered in the direction of steam ow, may be provided with the usual ofitake for air and noncondensable gases, as at 53 (Fig. 2).

In the construction disclosed in our previous patent, mentioned above, the space between the pair of

transverse partitions

26 and 21 was maintained flooded by provision of an opening in the horizontal partition v28 overlying the space to be iiooded, for entry thereinto oi.' condensate collecting on the partition 28. In certain extreme situations, for example.l where the tube bundle is unusually long, or the space between the horizontal partition and the tubes thereabove is so small as to undesirably limit the height of the dam 3|, the pressure drop occurring from the

partitions

26 and 21 to the dam 3l is great enough to prevent flow 'of condensate from the vicinity ofV the dam 3I back along the partition 28 to the

partitions

26 and 21.

Therefore, in the construction herein illustrated, we omit any opening in the horizontal partition overlying the space between the

partitions

26 and 21, but provide an opening 60 in the horizontal partition adjacent the dam 3l, to-

gether with a conduit 6I leading therefrom to the space between the partitions 2G and 21, with the result that the space is maintained ilooded as long as there'is any condensate on the partition 28. Of course, the excess condensate flows over the dam 3| to the lower part oi' .the shell and thence to the hotwell. v

While the invention has been shown in but one form, it will be obyious to those skilled in the art that it is not so limited', but is susceptin. ble oi various changes and modifications with' out departing from the spirit thereof, and it is desired, therefore, that only such limitations shall be placed thereupon as are specifically set forth in the appended claims.

What is claimed is:

1. Heat exchange apparatus comprising a horizontal shell having a steam inlet and a condensate outlet; a plurality of tubes extending longitudinally of said shell; waterbox structure associated with said tubes and providing for circulation of water therethrough in a plurality of passes with the rst pass tubes disposed in the lower part of the shell; a horizontal partition extending lengthwise of the shell and separating the iirst pass tubes from the remaining tubes,

the end of the shell adjacent the warm end oi' the first tube pass to provide a passage for ilow oi condensate `and steam from the spaceabove the partition to the space .therebelow; means separating the space surrounding the coldest portion of the irst tube pass from the remaining portion thereof with said separated portion constituting a subcooler, said means comprising a pair of 'spacedparallel, vertical partitions extending transversely of the space surrounding the first tube pass; dam means at the terminal portion of the horizontal partition adjacent the` steam and condensate passage for maintaining a body of condensate on Athe partition; and a conduit disposed below the horizontal partition for conducting condensate from the horizontal partition at a point adjacent the dam means to the space between the pair of partitions defining an end of the subcooler, said conduit constituting the sole means of communication between said space between the pair of transversely extending partitions and the space above the horizontal partition, whereby the pressure drop in the steam flow path through the condenser aids the now of I condensate through said conduit.

2. Heat exchange apparatus comprising a horizontally-disposed shell having a steam inlet and a condensate outlet; a plurality o1.' U-tubes extending longitudinally of the shell; a tube plate closing one end of the' shell and supporting the terminal portions of the tubes; waterbox struc- 1 ture associated with the tube plate and providing for flow of water through the tubes in two passes with the tubes of the rst water pass disposed in the lower part ofthe shell; a horizontal partition extending between the legs of the U-tubes from the tube plate to adjacent the bend of the U- tubes and separating the rst and second pass tubes; dam structure on the horizontal partition adjacent the end thereof. remote from the tube plate for retaining a body of condensate on the partition, said partition having an opening therethrough adjacent said dam; means 'segregating the space surrounding the coldest portion of the rst pass Itubes from the remaining portion lthereof with the segregated portion constituting a subcooler,said segregating means comprising a pair of spaced parallel, vertical, transversely-extending partitions; and a conduit disposed beneath the horizontal partition and providing communication between the opening in the horizontal partition and the space between the spaced pair of transversely-extending partitions, whereby condensate collecting on the horizontal partition adjacent the dam may flow to said space and maintain the latter flooded to prevent leakage of steam therethrough to the subcooler, said conduit constituting the sole means of communi- 4cation between said space between the pair of' transversely extending parti-tionsand the space above the horizontal partition, whereby the pressure drop in the steam flow path through the condenser aids the ow of condensate through said conduit. l

ROBERT A. BOWMAN. JOHN P. RA'IHBUN.Y