US1536242A

US1536242A - Auxiliary apparatus for condensers

Info

Publication number: US1536242A
Application number: US554513A
Authority: US
Inventors: Suczek Robert
Original assignee: CH Wheeler Manufacturing Co
Current assignee: CH Wheeler Manufacturing Co
Priority date: 1922-04-18
Filing date: 1922-04-18
Publication date: 1925-05-05
Anticipated expiration: 1942-05-05

Description

R. SUCZEK AUXILIARY APPARATUS FOR CONDENSEBS May 5, 1925.

Filed April 18, 1922 W gVENTOR. BY MQZ;

ZA Z ATTORNEY.

Patented May s, 1925.

UNITED STATES- v 1,536,242 PATENT OFFICE.

ROBERT SUCZEK, F PHILADELPHIA, PENNSYLVANIA, ASSIGNOB T0 C. H. WHEELER IMIANU'FAG'JTIJRING COMPANY, Oli PHILADELPHIA, PENNSYLVANIA, A CORPORA- TION OF PENNSYLVANIA.

AUXILIARY APPARATUS FOR CONDENSERS.

Application filed April 18, 1922. Serial No. 554,513. j

To all whom it may concern:

Be it known that I, ROBERT SUCZEK, a citizen of the United States, residin in the city and county of Philadelphia, tate of Pennsylvania, have invented certain new and useful Improvements in Auxiliary Apparatus for Condensers, of which the fol lowing is a specification.

My invention relates to apparatus for removing liquid or air, or both, as from regions of lower pressure to higher pressure,

- by ejector action; more particularly, my invention relates to apparatus of the character referred to for removing condensate or air. or both, from a condenser.

My invention resides in apparatus for removing liquid, as condensate, from a receptacle by the ejector action of a motive fluid consisting of components one of which is controllable in response to changes in the quantity of liquid to be removed, and another of which is the discharge of an ejec-r tor which raises the pressure of air or other gas.

My invention resides in other features of structure and combination hereinafter described and claimed.

For an illustration of one of various forms my apparatus may take, reference is to be had to the accompanying drawing, which is a vertical sectional view, some parts in elevation, through apparatus embodying my invention.

Referring to the drawing, 0 represents the body or shell of a condenser, for example, the shell of a surface condenser having'the inlet E for the steam to be condensed, as the exhaust steam from a turbine, steam engine, or from any other source. The steam entering at E is condensed in well known manner into water, which is the condensate which is collected in any suitable receptacle, as, for example, the hot well H. O is a port through which 'air is removed from the interior of the condenser C for producing or maintaining therein high vacuum, as well understood in the art. The port 0 communicates with the suction of the ejector Z, whose nozzle structure n is supplied with motive fluid, as steam or any other suitable motive fluid, through the pipe connection 8.

The ejector Z discharges the mixture of air and motive fluid, as steam, .into the chamsteam, as live or high pressure steam, from the pipe 8 controlled by the valve Y, which is-in turn controlled by the float F on the surface W of the condensate in the hot well or other. receptacle Communicating with the chamber X and extending into the receptacle H is the guide tube or cone B in alignment with the nozzle structure N and in alignment with the diffuser D whose inlet is within the receptacle H and which discharges into the separating chamber L having the air outlet 0 and the condensate outlet The cone or tube B serves as a motive fluid nozzle of a submerged ejector, the motive fluid being thatdelivered by the nozzle N and the discharge from the ejec- .ber X, and the motivefluid jet entrains air and steam from the chamber X and delivers it through the cone or tube B- into the hot well or receptacle H, where condensation of the steam takes place, producing a vacuum which assists the jet from the tube B in drawing condensate from the receptacle H into and forcing it through the diffuser D and delivering the same at higher pressure into the chamber L, where the air separates and is discharged through the passage 0 while the condensate is drawn off through the outlet the condensate in the chamber L overflowing the partition or weir Q, to the discharge outlet As the level W of the condensate falls, the float F falls and moves the Valve Y toward closed position, thereby reducing the amount of steam supplied to the nozzle N, and thereby causing the motive fluid issuing therefrom to remove less condensate from the receptacle H. In case the level W falls far enough, the valve Y will be completely closed. In such case thelow pressure fluid in the chamber X discharged by the ejector Z may alone serve as motive fluid for the submerged nozzle 15 to continue or effect removal of liquid or condensate at low rate. As the level W of the condensate rises again due to accumulation of condensate in the receptacle H, the float F 'will rise and open the valve Y to proper degree.

When the pressure oi the discharge of the ejector Z in the chamber X is sufliciently low while steam is delivered to the nozzle N, the motive fluid of the nozzle N entrains and carries along the fluid from the chamber X. However, 'whenthe pressure in the chamber X due to the discharge from the ejector Z is sufliciently high, it too operates from a low pressure in the receptacle oror cone B, it is supplied with low pressure motive fluid, the same being the exhaust or discharge from the ejector Z, and also higher pressure motive fluid through the nozzle N. The low pressure motive fluid may act alone when the valve Y is closed, or may act in unison with the motive fluid from the nozzle N when the valveY is open; or the discharge from ejector Z may be entrained and impelled by the motive fluid from the nozzle N into the nozzle B, where the mixture of fluids serves asmotive fluid to impel liquid or condensate into the diffuser D, the uncondensable gas or air passing out with the condensate into the chamber L.

In general, the ejector delivers the liquid to a higher pressure; whenthe port 0 is open to atmosphere, the liquid is delivered hot well H to substantially atmospher ic pressure. With the outlet of gas or air from the port O restricted, the pressure in the chamber'L may attain any suitable or desirable degree higher than atmospheric pressure, and the ejector apparatus will deliver the liquid against such higher pressure. In case the low pressure fluid delivered to the chamber X does not contain air or gas, as when low pressure steam from any suitable source is delivered to the chamber X, the

gas draw-ofl port may be omitted, or the chamber L may be omitted and the diffuser D discharge the liquid directly to any region under highpressure, as into 'a boiler.

When the low pressure fluid delivered to the chamber X is alone-acting, as when valve Y is closed, to remove liquid from the receptacle H, the amount of liquid delivered from the receptacle H by the ejector B, D may fall below the requirements,- in which case the lei'elw of the liquid 'will rise and delivered to the chamber X, as from the.

ejector Z, or from any source of exhaust or low pressure steam of variable quantity, the

nozzle structure N will automatically be brought to the assistance of the low pres sure motive fluid and so efl'ect delivery of liquid at the required rate. In other words, thefloat F will take different positions in response to fluctuations in the amount or pressure of the motive fluid delivered to the chamber X and in response also to variations in the amount of liquid required to be withdrawn from the receptacle H.

The float F may control the action of the ejector, as by adjusting an adjustable diffuser, or adjustable nozzle, or both.

While the ejectors herein disclosed are of the simple single'nozzle type, it will be understood that any suitable forms of ejector may be used, as, for example, those employing a plurality of steam or motive fluid .nozzles, or ejectors having annular nozzles and diffusers, .and ejectors of the latter type in which the diffuser is disposed outside of and surrounds the annular nozzle which discharges radially into the diffuser, as disclosed in Letters Patent of the United States No. 1,282,595.

The apparatus herein disclosed is. disclosed in Letters Patent of the United States No. 1,342,471, granted me June 8, 1920. a

What I claim is: j

1. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising IIOZZIU structure for removing the liquid from said receptacle, a second-ejector delivering motive flu1d to said nozzle structure, and nozzle structure delivering motivle fluid to said first named nozzle structure.

'2.- The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, a second e ector delivering motlve flu1d to sald nozzle structure, and nozzle structure delivering motive fluid and the fluid delivered by said second ejector to said first named iiozzle structure.

3. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, a second ejector discharging low pressure elastic fluid to said nozzle structure, and nozzle structure delivering motive fluid to said first named nozzle structure.

4. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid .from said receptacle, a second ejector discharging low pressure elastic fluid to said nozzle structure,

and nozzle structure delivering elastic moin said receptacle and comprising nozzle structure for removing the liquid from said receptacle, a second e ector discharging gas to said nozzle structure, nozzle structure delivering motive fluid to said first named nozzle structure, and a receptacle towhich said gas and said liquid are delivered and in which they separate.

7. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, a chamber with which the intake of said nozzle structure communicates, an ejector discharging into said chamber, and nozzle structure delivering motive fluid and fluid from said chamber into said first named nozzle structure.

8. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removingthe liquid from said receptacle, a chamber with which theintake of said nozzle structure communicates, an ejector discharging into said chamber. nozzle structure delivering motive fluid and fluid from said chamber into said first named nozzle structure, and a receptacle into which said first ejector discharges and in which the liquid separates from gas.

9. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, a second ejector delivering motive fluid to said nozzle structure, nozzle structure delivering motive fluid to said first named nozzle structure, and means for causing delivery of motive fluid to' said second named nozzle structure upon accumulation of said liquid.

10. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, means delivering low pressure motive fluid to said nozzle structure, nozzle structure for delivering motive fluid to said ejector, ,and means for causing delivery of motive fluid to said second named nozzle structure upon accumulation of liquid in excess of that removable by said low pressure motive fluid alone.

11. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure foi' removing the liquid from said receptacle, means delivering low pressure motive fluid to said nozzle structure, nozzle structure for delivering motive fluid to said ejector, and means for causing delivery of higher pressure motive fluid to said second named nozzle structure to assist in liquid delivery upon occurrence of too low a rate of delivery of liquid from said receptacle.

12. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle and comprising nozzle structure for removing the liquid from said receptacle, means delivering low pressure motive fluid to said nozzle structure, nozzle structure for delivering motive fluid to said ejector, and means for causing delivery of higher pressure motive fluid to said second named nozzle structure to assist in liquid delivery upon occurrence of too low a rate of delivery of liquid from. said receptacle by said low pressure motive fluid.

13. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle for removin the li uid from said receptacle, a source 0 motive uid for said ejector, a second source of motive fluid for said ejector, and nozzle structure through which motive fluid from said second source is delivered to said ejector.

14. The combination with a receptacle for liquid, of an eject-or submerged in the liquid in said receptacle for removing the liquid from said receptacle, a source of low pressure motive fluid for said ejector, a second source of higher pressure motive-fluid for said ejector, and nozzle structure through which said motive fluid of higher pressure is delivered to said ejector.

15. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle for removing the liquid from said receptacle, a source of motive fluid for said ejector, a second source of motive fluid for said ejector, nozzle structure through which motive fluid from said second source is delivered to said ejector, and

from said receptacle, a source of low pressure motive fluid for saidejector, a second source of higher pressure motive fluid for said ejector, nozzle structure through which said motive fluid of higher pressure is delivered to said ejector, and automatic means controlling delivery of motive fluid from said second source to said nozzle structure in response to occurrence of too low arate of delivery of liquid from said' receptacle.

17. The combination with 'a receptacle for liquid, of an ejector submerged in the liquid in said receptacle for removing said liquid from said receptacle, a chamber with which the intake of the nozzle structure of said ejector communicates, means for delivering motive fluid into said chamber, and a second nozzle structure delivering motive fluid to said ejector. i

18. The combination with a receptacle for liquid, of an ejector submerged in the liquid in said receptacle for removing said liquid from said receptacle, a chamber with which the intake of the nozzle structure of said ejector communicates, means for delivering low pressure elastic motive fluid to said chamber, and a second nozzle structure delivering elastic motive fluid of higher pressure to said ejector.

19. The combination with a condenser, of a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, means delivering motive fluid to said ejector, and nozzle structure delivering a second motive fluid to said ejector.

a 20. The combination with a condenser, of a condensate receptacle, an ejector sub- -merged in the condensate for removing the condensate from said receptacle, means vfor delivering low pressure elastic motive fluid to said ejector, and nozzle structure delivering elastic motive fluid of higher pressure to said ejector.

21. The combination with a condenser, of a condensate receptacle, an e ector submerged 1n the condensate for removing the condensate from said receptacle, a chamber with which the intake of the nozzle structure of said e ector communicates, means for delivering motive fluid to said chamber, and a second nozzle structure delivering a second motive fluid to said ejector.

22. The combination with a condenser, o a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, a chamber with which the intake of the nozzle structure of said ejector communicates, an ejector removing air from said condenser and dischar ing into said chamber, and means for simu taneously delivering motive fluid to said first named ejector.

23. The combination with a condenser, of a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, a chamber with which the intake of the nozzle structure of said ejector communicates, an ejector removing air from said condenser and dissaid ejector, and automatic means controlling the motive fluid delivered by said nozzle structure in response to occurrence of too low a rate of delivery of condensate from said receptacle.

' 25. The combination with a condenser, of a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, means for delivering low pressure elastic motive fluid to said ejector, nozzle structure delivering elastic motive fluid of higher pressure to said ejector, and automatic means controlling the motive fluid delivered by said nozzle structure in response to occurrence of too low a rate of delivery of condensate from said receptacle.

26. The combination with a condenser, of a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, a chamber with which the intake of the nozzle structure of said ejector communicates, means a second nozzle structure delivering a second motive fluid to said ejector, and automatic means controlling the motive fluid delivered by said second nozzle structure in response to occurrence of too low a rate of delivery of condensate from said receptacle.

27. The combination with a condenser, of a condensate receptacle, an ejector submerged in the condensate for removing the condensate from said receptacle, a chamber for delivering motive fluid to said chamber,

lit)

with which the intake of the nozzle structure of said ejector communicates, an ejector removing air from said condenser and discharging into said chamber, means for simultaneously delivering motive fluid to said first named ejector, and automatic means controlling the motive fluid delivered by said second nozzle structure in response.

to occurrence of'too low a rateof delivery of condensate from said receptacle.

28. The combination with a condenser, of

merged in the condensate for removing the condensate from said receptacle, a chamber a condensate receptacle, an ejector sublliU with which the intake of the 'nozzle structure of said ejector communicates, an ejector removing air from said condenser and discharging into. said chamber, a source or elastic motive fluid having a'pressure higher than the discharge from said second named ejector, a second nozzle structure through which said higher pressure motive fluid is delivered to said first named ejector, and automatic means controlling the motive fluid delivered by said second nozzle struc-.

ture in response to occurrence of too lowa rate of delivery of condensate from said receptacle.

29. In combination with a condenser, an ejector withdrawing fluid from said con denser, means delivering independent streams of elastic fluid to said ejector, and means responsive to the rate of production of condensate by said condenser controlling one of said streams.

30. In combination with a condenser, an ejector having a chamber and motive fluid nozzle structure, means delivering independent streams of elastic fluid to said chamber and nozzle structure respectively, and means responsive to the amount of condensate controlling one of said streams. v

31. In combination with a condenser, an

ejector having a chamber and motive fluid nozzle structure, means for delivering independent streams of steam to said chamber and said nozzle structure, respectively, and means controlled by the condensate from said condenser controlling one of said streams.

32. In combination with a condenser, an ejector removing a fluid from said condenser and having a chamber and motivefluid nozzle structure, means for delivering independent streams ofsteam to said chamber and nozzle. structure, respectively, and means controlled by the condensate from said condenser controlling one of said streams.

33. In combination with a condenser, an ejector for removing condensate and hav- -ture, ,streams of steam to said chamber and nozing a chamber and motive'fiuid nozzle strucmeans for delivering independent zle structure, respectively, and means controlled by the condensate controlling oneof and means controlled by the condensate from said condenser controlling delivery of motive fluid to said ejector apparatus.

35. In combination with a condenser, ejector apparatus having a chamber and motive fluid nozzle structure, an ejector withdrawing 'uncondensable fluid from said condenser and discharging into said chamher, and means controlled by the condensate from said condenser controlling the supply of motive fluid to said nozzle structure.

36. In combination with. a condenser, ejector apparatus comprising a chamber and nozzle structures, the inlet of one of said nozzle structures communicating with said chamber and receiving discharge from another of said nozzle structures, a passage delivering unc'ondensable fluid from said condenser to said chamber, and means controlled by the condensate from said condens-- er controlling delivery of motive fluid to said'other of said nozzle structures.

37 In combination with 'a condenser, ejector "apparatus comprising a chamber and nozzle structures, the inlet of one of said nozzle structures communicating with said chamber and receiving discharge from another of said nozzle structures, an ejector removing uncondensable fluid from said condenser and discharging into said chamber, and means controlled by the condensate from said condenser controlling delivery of motive fluid to said other of said nozzle structures.

In testimony whereof I have hereunto affixed my signature this 17th day of April,

- ROBERT SUCZEK.