US1373463A - Condensing apparatus - Google Patents

Condensing apparatus Download PDF

Info

Publication number
US1373463A
US1373463A US271622A US27162219A US1373463A US 1373463 A US1373463 A US 1373463A US 271622 A US271622 A US 271622A US 27162219 A US27162219 A US 27162219A US 1373463 A US1373463 A US 1373463A
Authority
US
United States
Prior art keywords
condenser
tubes
ejectors
ejector
cooling medium
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US271622A
Inventor
Suczek Robert
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CH Wheeler Manufacturing Co
Original Assignee
CH Wheeler Manufacturing Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by CH Wheeler Manufacturing Co filed Critical CH Wheeler Manufacturing Co
Priority to US271622A priority Critical patent/US1373463A/en
Application granted granted Critical
Publication of US1373463A publication Critical patent/US1373463A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28BSTEAM OR VAPOUR CONDENSERS
    • F28B11/00Controlling arrangements with features specially adapted for condensers
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S165/00Heat exchange
    • Y10S165/184Indirect-contact condenser
    • Y10S165/187Indirect-contact condenser having pump downstream of condenser
    • Y10S165/188Pump to remove only uncondensed vapor or air
    • Y10S165/19Pump to remove only uncondensed vapor or air including second-stage indirect-contact condenser

Definitions

  • My vention relates to apparatus for condensmg fluid, as steam, and removing uncondensable flu d, as air, which may be contained in or m assoclatlon w1ththe'condens-.
  • My invention resides in "condensing appa-' ratus-of any suitable type,,mo-re particularly and the uncondensedfiui cooled by extraction of heat from'the, walls of said passage or passages by cooling medium, as water,
  • pum which is p eferably tfwhich' thereafter sure oft e uncondens ed fluid from the ejector, said pum being of; any suitable type
  • Figure 1 is a side elevationalview of an embodiment of my invention j comprising a to surface condenser with'which is associated multiple stage ejector apparatus with intersta e condensing structure.
  • g-QZ ispartly an elevation-fiend partly a section, taken on the line 22 of Fig. 1.
  • Fi 1 3V is a fragmenta ,elevationalview, part yin-section, on the inc 3-?) of Fi 2.
  • Gis the she I of a surface condenser comprising, in the ex-- ample illustrated, two water conducting tubes (1 and b, extending anks of cooling longitudinally t ereof' and terminating at ich the condensable fluid mm the mixture of the sector is condensed ducting air or uncondensa gases to the ejectors E and E whose sucone end in the cooling water box A and at the other endrin the cooling water box BI
  • the grouping ofthe tubes at and b is with respect to the gartition or diaphragm c in the water box to which coolin water admitted through the intake 01.
  • the condenser structure as described is one well known in the art, and is given merely as an example of many structures which may be used in a combination embodying my invention.
  • the ejectors E and E are of any suitable type, preferably and here indicated as of the tubular type, though it will be understood that both oreither may be of v the radial flow type producing disk-shaped into a surrounding difi'user.
  • otive flui as live or exhaust steam, is furnished the'ejectors E and E through the valves 2' and i pipes and j, and valves is and I4.
  • a tubesheet or plate m Secured to a flange 1 on the water box A, preferably adjacent the cooling water inlet passage d, is a tubesheet or plate m which again. through the group 'of tubes a to t e upper is a wall common to the water box A and the chambers or compartments 72,0, n and rality of tubes g extending forwardly into the water box A adj acent' the cooling water inlet D and extending backwardly to the compartment 0.
  • a group of tubes 9 afford communication between the compart- 11 and 0 and are disposed beside the tubes g preferably in like position with respect to the waten box A and the inlet all;
  • the ejectors E and .E discharge, respectively, through the pipes or passages r and 1 into the compartments n and n From the compartments o and 0 extend pipes or passa es s and s to the suctions of pumps P and respectively, which ma be of any suitable type for compressing ei astic fluid, and may be reciprocating, rotary, entrainment, wet or dry or hydraulic air pumps, or any other suitable type of pump; but preferably the pumps P and P are steam actuated ejectors of any suitable type, and may be and preferably are radial flow ejectors producing disk-shaped jets received into surrounding annular diffusers.
  • the ejectors of each pair, as E and; P may be, respectively, tubular and radial flow ejectors such as disclosed, for example, in Letters Patent of the 'United States No. 1,282,595, the ejectors P, P receiving their motive fluid through the aforementioned valves i and 11
  • the ejectorsP- and P have their discharge outlets at t and 15 respectively.
  • the condensation in the tubes 9 is effected by the cooling water entering at d, before such water has entered the condenser tubes, and therefore before it has effected any con-.
  • each pair may be isolated b closing its associated valve h orit and preferably also by closing the associated valve v or '0
  • each pair is separate and distinct from the other and may be isolated with advantage, as distinguished from the case where the interstage ejector has a condensing chamber common to both pairs of ejectors.

Description

R. SUCZEK.
CONDENSING APPARATUS.
APPLICATION FILED JAN-17, 19m.
Patented-Apr. 5, 1921.
- l/VVE/VTOR ATTORNEY.
OOOOOOOOOOOOOOOOOOOOO OOOOOOOOOO so and isprefe M invention resides also in the apparatus I heremafter described;
For an. illustration" of one the various formsmy invention may take, and for an as'gillustration. ofa mode of :ractising my to the .accomv User ROBERT SUCZEK, F PHILADELFHIA, IA, ASSIGNOR TO C. H. WHEELER 0E PHILADELPHIA, PENNSYLVANIA, A CORPORA- annuracroame comrnn r, 'rron or rnnnsxavams.
conn nnsme-nrranarns.
igaraaoa Specification of Letters Patent. Patented Apt. 5, 19211.
Application filed January 17, 1919. Serial No. 27 1,622.'
To all whom mag concern:
Be it known that 1', ROBERT SUczEK, a'c1t1- zen of thenCzechoslovak Republic, residing.
in the city and county of Philadelphia, State 5 of Pennsylvania, have invented certain new and useful Improvements in Condensing -Apparatus, of which the following is 'a.
specification. o
' My vention relates to apparatus for condensmg fluid, as steam, and removing uncondensable flu d, as air, which may be contained in or m assoclatlon w1ththe'condens-.
able fluid before or after condensation.
My invention resides in "condensing appa-' ratus-of any suitable type,,mo-re particularly and the uncondensedfiui cooled by extraction of heat from'the, walls of said passage or passages by cooling medium, as water,
which is p eferably tfwhich' thereafter sure oft e uncondens ed fluid from the ejector, said pum being of; any suitable type,
rahly another ejector. 1
method, reference isto' be ha pany drawing,.in which";
Figure 1, isa side elevationalview of an embodiment of my invention j comprising a to surface condenser with'which is associated multiple stage ejector apparatus with intersta e condensing structure.
g-QZ ispartly an elevation-fiend partly a section, taken on the line 22 of Fig. 1.
. Fi 1 3V is a fragmenta ,elevationalview, part yin-section, on the inc 3-?) of Fi 2. Referring to the drawing, Gis the she I of a surface condenser comprising, in the ex-- ample illustrated, two water conducting tubes (1 and b, extending anks of cooling longitudinally t ereof' and terminating at ich the condensable fluid mm the mixture of the sector is condensed ducting air or uncondensa gases to the ejectors E and E whose sucone end in the cooling water box A and at the other endrin the cooling water box BI The grouping ofthe tubes at and b is with respect to the gartition or diaphragm c in the water box to which coolin water admitted through the intake 01. he water flows through the group of tubes 6 to tlie water box B, thence forwardl compartment of the waterbox A'and thence outwardly through the cooling water outlet e. The fluid to be condensed, as steam from steam turbines,'engines or any other source enters the condenser at D into the dome above the upper tubes (1, flows around and between said tubes into the space between and around the tubes 6 of the lower group, and in so passmg is condensed, the water of-c'ondensatlon-or condensate being received in the hot well G, from which it is withdrawn through the pipe 7 by a suitable pump. 1
The condenser structure as described is one well known in the art, and is given merely as an example of many structures which may be used in a combination embodying my invention.
In this connection it will be understood that my invention is not limited, except where so specified in the claims, toa surface condenser, inasmuch as'some features of my inventionarea plicable with condensers of other types, as or example, jet condensers.
I Communicating with the vacuum space within the condenser is the ipe .g for conhle vapors or tion chambers are'in commumcation with the. pipe 9 through the valves k and k respectively. The ejectors E and E are of any suitable type, preferably and here indicated as of the tubular type, though it will be understood that both oreither may be of v the radial flow type producing disk-shaped into a surrounding difi'user.
otive flui as live or exhaust steam, is furnished the'ejectors E and E through the valves 2' and i pipes and j, and valves is and I4.
Secured to a flange 1 on the water box A, preferably adjacent the cooling water inlet passage d, is a tubesheet or plate m which again. through the group 'of tubes a to t e upper is a wall common to the water box A and the chambers or compartments 72,0, n and rality of tubes g extending forwardly into the water box A adj acent' the cooling water inlet D and extending backwardly to the compartment 0. Similarly, a group of tubes 9 afford communication between the compart- 11 and 0 and are disposed beside the tubes g preferably in like position with respect to the waten box A and the inlet all; The ejectors E and .E discharge, respectively, through the pipes or passages r and 1 into the compartments n and n From the compartments o and 0 extend pipes or passa es s and s to the suctions of pumps P and respectively, which ma be of any suitable type for compressing ei astic fluid, and may be reciprocating, rotary, entrainment, wet or dry or hydraulic air pumps, or any other suitable type of pump; but preferably the pumps P and P are steam actuated ejectors of any suitable type, and may be and preferably are radial flow ejectors producing disk-shaped jets received into surrounding annular diffusers. In fact, the ejectors of each pair, as E and; P, may be, respectively, tubular and radial flow ejectors such as disclosed, for example, in Letters Patent of the 'United States No. 1,282,595, the ejectors P, P receiving their motive fluid through the aforementioned valves i and 11 The ejectorsP- and P have their discharge outlets at t and 15 respectively.
Communicating respectively with the bottoms of the compartments (2 and 0 are the condensate draw-ofi' pipes u and a, controlled by valves v, c and delivering into the pipe w, which delivers into the hot well G or is led to any other suitable destination.
The operation is as follows:
Steam entering at D iscondensed in coming into contact with the cooling water conducting tubes at and b, the condensate passing to the hot well G from which it is withdrawn through pipe f. Uncondensable vapors or air within the condenser are removed, to maintain vacuum therein, by the ejector E whose dischar e is passed through the tubes 9, wherein t e motive fluid or steam for the ejector E or other condensable vapor is condensed, the c ondensate and air being delivered into the chamber 0, and the condensate drawn off through the pipe u while the air is delivered to the second stage pump or ejector'and further raised in pressure. 7
The condensation in the tubes 9 is effected by the cooling water entering at d, before such water has entered the condenser tubes, and therefore before it has effected any con-.
with the said densation and before it has risen in temperature. This will eifect very thorough condensation in the tubes 9 and effect a large fall in temperature of the air and uncondensable vapor, which is accordingly increased in density and more easily operated upon by the, second stage pump or ejector P.
The operation is also the same for the other ejector E and its associated pump or ejector P with their intermediately connected tubes g Communication with either ejector E or E with the interior of the condenser may be discontinued by closing the associated valve h or k. When this is done the other ejector may continue in operation, as when the amount of air to be withdrawn from the condenser is so small as to be readily taken care of by one'ejector or one pair of e'ectors. Or in case of trouble with either pair, that pair may be isolated b closing its associated valve h orit and preferably also by closing the associated valve v or '0 By this structure, involving interstage condenser tubes for each pair of ejectors, each pair is separate and distinct from the other and may be isolated with advantage, as distinguished from the case where the interstage ejector has a condensing chamber common to both pairs of ejectors.
Certain broad subject matter germane to I this application and to my co-pending application Ser. No. 271,621, filed J anua1'y17, 1919, is not herein claimed, but is claimed in said co-pending application.
What I claim is: Y
1. The combination with a condenser having a box or distributing chamber as a part thereof receiving the coolin medium before its operation upon the uid to be condensed, of an ejector, and a condenser receiving the discharge from said ejector having its heat transfer structure disposed within said box or chamber.
2. The= combination with a surface condenser comprising cooling medium conducting tubes, of a cooling medium box or chamber communicating with said tubes, an e ector, and a surface condenser receiving the discharge from said ejector and having its heat transfer structure disposed in said box or chamber.
3. The combination with a plurality of ejectors, of a chest divided into compartments, a pair of compartments for each ejector, tubes connecting the compartments of a pair andconducting from one of them to the other the discharge from the ejector. and means for subjecting the tubes associated ejectors to the same cooling medium. Y
4:. The combination with a condenser, of means for supplying cooling medium thereto, a plurality of ejectors arranged in parallel," a group of tubes for each ejector receiving the discharge therefrom, and means for subjecting the groups of tubes to said coolirig medium. 1
5. he'combination with a condenser, of means for supplying cooling medium thereto, a plurality of ejectors, a group of tubes for each ejector receiving the discharge therefrom, and means for subjecting the groupsof tubes to said cooling medium be-- fore" it reaches heat transfer relation with the condensable fluid in said condenser.
6. The combination with a plurality of ejectors, of a chest divided into compartments, a pair of compartments for each ejector, tubes connecting the compartments of a pair and conducting from one of them to the other the-discharge from the ejector, means for subjecting the tubes'associated with the said ejectors to cooling medium from the same source, and a pump further increasing the pressure of the uncondensed fluid from each of said ejectors.
7. The combination with a plurality of ejectors, of a chest divided into compart ments, a pair of compartments for each ejector, tubes connecting the compartments of a pair and conducting from one of them to the other the discharge from the ejector, means for subjecting the'tubes associated with the said ejectors to cooling medium from the same source, and an ejector for furtherraising the pressure of the uncondensed fluid from each of said ejectors.
8. The combination with a condenser, of means for supplying cooling medium thereto, a plurality of ejectors, a group of tubes. for each ejector receiving the discharge therefrom, means for subjecting the groups of tubes to said cooling medium, and a pump further increasing the pressure of the uncondensed fluid from each of said ejectors.
9. The combination with a condenser, of
means for supplying cooling medium thereto, a plurality of ejectors arranged in parallel, a group of tubes foreach e ector receiv- .ing the discharge therefrom, means for subjecting the roups of tubesto said cooling medium, an an ejector for further raising the pressure of-the uncondensed fluid from each of said ejectors.
10. The combination ,a condenser,- of means for supplying cooling medium there to, a plurality of ejectors, an independent group of tubes for each ejector receiving the discharge therefrom, means for subjecting the groups of tubes to said cooling medium before it reaches heat transfer relation with the condensable fluid in said condenser, and a pump? further increasing the pressure of the uncondensed fluid from each of said e ectors.-
11. The combination with a condenser, of means for supplying cooling medium therev to, a plurality of-ejectors, a group of tubes for each ejector receiv ng the discharge therefrom, means for subjecting the groups of tubes to said cooling medium before it reaches heat transfer relation with the condensable fluid in said condenser, and an ejector further raising the pressure of the uncondensed fluid from each of said ej ectors.
12. The combination with a condenser, of means for supplying cooling medium thereto, a plurality of ejectors, a group of tubes for each ejector receiving the discharge therefrom, means for subjecting the groups of tubes to said cooling medium, and a valve for isolating the suction chamber of each of said ejectors from the interiorof saidcondenser.
13. The combination with a condenser, of
means for supplying cooling medium thereto, a plurality of ejectors, a group of tubes for each ejector receiving the discharge therefrom, means for subjecting the groups of tubes to said cooling medium before it reaches heat transfer relation with the cone densable fluid in said condenser, and a valve for isolating the suction chamber of each of said ejectors from the interior of said'condenser.
14. The combination with a condenser having a hot well, of means for supplying cooling medium thereto, an ejector, a second condenser receiving the discharge from said e ector, means for sub ecting said second condenser to said cooling medium before it absorbs heat from the condensable fluid within the first condenser, and means for delivering condensate from said second condenser to said hot well.
15. The combination-with a surface condenser, of an ejector and a condenser receiving the discharge therefrom disposed in said surface condenser and cooled by the cooling medium thereof.
18. The combination with a surface condenser, of a plurality of ejectors mounted uponvsaid condenser, and a second condenser interstage with said ejectors disposed in said surface condenser and cooled by the cooling medium thereof.
.19. Thecombination with a condenser, of a plurality of ejectors having their-suction chambers connected therewith, means for raising the pressure of elastic fluid removed from said condenser by said ejectors, condenser structure intervening between said means and each of said ejectors for condensing the condensable component of the discharge from said ejectors, said condenser structure comprising an independent heat transfer structure for each of said ejectors, means for subjecting said heat transfer structures to cooling medium, and means for isolating either of said suction chambers from said first named condenser.
Ill-testimony whereof I have hereunto af- 10 fliged my signature this 16th day of January,
ROBERT SUCZEK.
US271622A 1919-01-17 1919-01-17 Condensing apparatus Expired - Lifetime US1373463A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US271622A US1373463A (en) 1919-01-17 1919-01-17 Condensing apparatus

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US271622A US1373463A (en) 1919-01-17 1919-01-17 Condensing apparatus

Publications (1)

Publication Number Publication Date
US1373463A true US1373463A (en) 1921-04-05

Family

ID=23036350

Family Applications (1)

Application Number Title Priority Date Filing Date
US271622A Expired - Lifetime US1373463A (en) 1919-01-17 1919-01-17 Condensing apparatus

Country Status (1)

Country Link
US (1) US1373463A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6128901A (en) * 1999-11-01 2000-10-10 Sha; William T. Pressure control system to improve power plant efficiency

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6128901A (en) * 1999-11-01 2000-10-10 Sha; William T. Pressure control system to improve power plant efficiency

Similar Documents

Publication Publication Date Title
US1373463A (en) Condensing apparatus
US1267897A (en) Air-pump.
US1521729A (en) Ejector method and apparatus
US1777239A (en) Ejector in series
US1611256A (en) Condensing and deaerating method and apparatus
US1100694A (en) Method of producing and maintaining a high vacuum.
US1437819A (en) Ejector
US1046304A (en) Means for evacuating vacuum apparatus.
US1343922A (en) Air-pump for evacuating air from condensers, refrigerating plants, and the like
US1580177A (en) Method of and apparatus for compressing fluid
US1372926A (en) Steam surface condenser
US1143349A (en) Multistage steam-condensing.
US1504723A (en) Fluid-translating device
US1536539A (en) Fluid-compressing apparatus
US1397924A (en) Multiple-stage ejector
US1385884A (en) Ejector fluid-pump
US1509090A (en) Pressure pump
US1260593A (en) Condensing apparatus.
US1586234A (en) Surface condenser
US1230557A (en) Condensing apparatus.
US1160943A (en) Apparatus for withdrawing aerated vapor and condensate from steam-condensers.
US1563981A (en) Condenser
US1535137A (en) Fluid-compressing apparatus
US1578865A (en) Fluid-compressing apparatus
US1460044A (en) Method of and apparatus for compressing fluid