US935446A - Condenser. - Google Patents

Condenser. Download PDF

Info

Publication number
US935446A
US935446A US46890608A US1908468906A US935446A US 935446 A US935446 A US 935446A US 46890608 A US46890608 A US 46890608A US 1908468906 A US1908468906 A US 1908468906A US 935446 A US935446 A US 935446A
Authority
US
United States
Prior art keywords
water
condenser
tubes
pipes
vapor
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
US46890608A
Inventor
Edward N Woodruff
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to US46890608A priority Critical patent/US935446A/en
Application granted granted Critical
Publication of US935446A publication Critical patent/US935446A/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
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D5/00Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, using the cooling effect of natural or forced evaporation
    • F28D5/02Heat-exchange apparatus having stationary conduit assemblies for one heat-exchange medium only, the media being in contact with different sides of the conduit wall, using the cooling effect of natural or forced evaporation in which the evaporating medium flows in a continuous film or trickles freely over the conduits
    • 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
    • Y10S165/163Heat exchange including a means to form fluid film on heat transfer surface, e.g. trickle
    • Y10S165/177Film flows along upper surface of tray
    • Y10S165/181Horizontally disposable elongated member

Definitions

  • This invention relates to condensers of the type adapted for condensing steam, or other vapors; the form to be described herein being particularly and peculiarly adapted for use in artificial ice plants where an apparatus that can be made to operate continuously and uninterruptedly is desired.
  • One of the objects of the invention is to provide a form of condenser in which vertically disposed pipes or tubes are used and up through which a cooling agent is made to flow and against which the vapor to be condensed is made to impinge.
  • Another object is to pass a cooling water up through the said pipes and then cause it to flow down over the outer surfaces of the Walls of said chamber thereby using the said agent twice for cooling purposes.
  • Another object is to provide a condenser that may be quickly and thoroughly cleaned without stopping its action or closing down any part of the plant with which it is connected.
  • FIG. l is a side elevation of the condenser a portion of which is broken away to show the interior arrangement.
  • Fig. 2 is a transverse sectional elevation of the same.
  • Fig. le is a plan of a portion of the same.
  • Fig. 5 is a perspective view of a portion of a pipe which conveys va por into and throughout the condenser.
  • A indicates a receptacle for cooling water, preferably in the form of a pan, having a flange B around its upper edge.
  • the condenser-body C also provided with a fiange D which is secured to said liange B by means of bolts E.
  • the said body C is merely a steam tight casing consisting of the side and end walls as shown and properly tted with a bottom F and a top G. Erected within the casing is a series of vertically disposed pipes or tubes I-I arranged, in the present case, in two rows and whose ends extend through both the top Gr and the bottom F substantially as shown.
  • the top G is placed below the top edges of the walls of the body so as to constitute a pan or container for water and the said walls above the pan are serrated so as to provide a series of notches preferably atregular intervals. Opening through one of the end walls into this pan is a pipe .I which connects into a T-tting K and connected to each end of the latter is a pipe L which is made to extend along the sides of the body C substantially parallel thereto and provided with perforations adjacent to the walls one of which perforations is shown at M in Fig. 3, the ends of the pipe L being capped as also shown in this figure.
  • a pipe N is connected into the receptacle A and conveys water thereto, said pipe being' provided with a valve O to regulate the flow of the water which is preferably fed by gravity from a source of water having a position above the condenser as already intimated.
  • the said receptacle A is provided with clean out openings, not shown, and suitably covered at a a and has a pipe o controlled by a valve o through which the pan may be emptied and drained when desired.
  • a pipe P Connected into one of the end walls of the body C is a pipe P for the vapor to be condensed. This pipe extends between the two rows of Fig.
  • pipes -I preferably the full length of the I body and it may be terminated at the opposite side from which it enters or, as shown in the drawing, it may be returned toward the end at which it enters and then again be carried to the opposite end and again back as many times as may be desired.
  • perforations Q opposite the several tubes Il so that the vapor projected therefrom will be made to impinge upon said tubes or pipes.
  • a pipe It constituting an outlet for the fluid of condensation.
  • Beneath the condenser is a pan S for receiving the cooling water discharged from the condenser,
  • the cooling water enters and fills the pan A through the pipe N and rises through the pipes or tubes Irl into the pan at the top of the condenser.
  • the water overflows from the upper pan runs out through the notches or serrations before described, and down the side and end walls of the body C into the pan S.
  • I provide a trough U near the bottom of the condenser body which extends entirely around the latter and serves to catch the water as it runs down the walls of the container, said trough discharging the water into the said pan S.
  • this trough is merely a preferred way of catching the water so that it will not flow over the flanges B D and it need not be used.
  • the vapor enters the body C through the pipe P and is discharged through the perforations Q against Y the pipes I-I and the fluid resulting from condensation flows down said pipes and finally out of the body C through the escape pipe It.
  • the vapor within the body also condenses upon the entire surface of the pipes and upon the walls of the body C, the combined cooling areas being sufficient to thoroughly and continually carry on the process of condensation.
  • the minerals in the cooling water will naturally be deposited in the tubes and the said tubes can be readily cleaned as thoroughly and as often as desired by the use of any forni of boiler tube cleaner without interrupting the action of the condenser. Since the pipes are entirely open at the top the implement can be inserted at any time and the entire series cleared of deposits. Since the lower ends of pipes open into the receptacle A below the deposits fall thereinto and from time to time said receptacle may be cleaned out through the openings provided for that purpose.
  • a condenser In a condenser the combination of a hollow body, a series of pipes erected therein and extending through its top and bottoni and open at their upper ends above said top, a receptacle for cooling water beneath the body, means to cause the water to rise from the receptacle into and through the pipes and out at their upper ends upon the top of the body, means to cause an even distribution of water flowing from the pipes upon the outer surfaces of the walls of the body of the condenser, and means connected with the interior of the body through which vapor is introduced into said body there being a discharge opening in the body for the water of condensation.
  • a condenser in a condenser the combination of a hollow closed body, a series of open substantially vertically disposed tubes extending through the top and bottom of said body, the walls of thebody having vertical extensions above the ends of the tubes to form an open receiver above said tubes and with which the latter communicate, there being provision on the extensions of the wall to provide for an even flow of water down the outer surfaces of the walls of the body, means to introduce water in the lower ends of the tubes and compel it to flow up through them, means to introduce vapor into the body, there being an outlet in said body for 'the discharge of the fluid of condensation.
  • a condenser in a condenser the combination of a hollow closed body, having a horizontally disposed division wall dividing it into two compartments, an upper and a lower, a series of verticallyv disposed open tubes extending through the said division wall and thus communicating with the lower of the said com partments and extending also through the top of the body, a receiver for water at the top of the body, a conduit to introduce water into the lower compartment and cause it to ascend through the tubes into the receiver at the top of the body, and means to introduce vapor into the upper compartment, there being an outlet in the latter for tlie purposes set forth.
  • a condenser In a condenser the combination of a hollow closed body, having a horizontally disposed division wall dividing the body into two compartments, an upper and a lower, a series of' vertically disposed open tubes extending through the top of' the body and through the said division wall the said tubes communicating with the lower of the compartments, a receiver at the top of the body with which the tubes communicate, a conduit to introduce water into the lower coinpartment, there being provision at the top of the body to evenly discharge water from the receiver upon the outer surfaces of the walls of the body, and means to conduct vapor into the upper compartment and having provision for projecting the same against the tubes, there being an outlet for fluid in said body.
  • a condenser in a condenser the combination of a hollow closed body having a substantially horizontal division wall therein dividing' said body into two compartments, an upper and a lower, a series of vertically disposed open tubes in said body extending through the top of the latter and said division wall said tubes being open at each end and communicating with the lower compartment, the walls of the body having vertical extensions above the upper ends of the tubes to constitute an inclosure, there being serrations in said extensions for the purposes set forth, means to introduce water into the lower compartment, and means to introduce vapor into the upper compartment, there being an exit in the latter for the fluid of condensation.
  • a condenser In a condenser the combination of a hollow closed body having' a substantially horizontal division wall therein dividing said body into two compartments, an upper and a lower, a series of vertically disposed l open tubes in said body extending through the top of the latter and said division wall, a receiver at the top of the body above the tubes, said tubes being' open at each end and communicating with the lower compartment and the receiver, conduits connected with the receiver and extending along the walls of the body and having perforations adjacent to said walls, means to introduce water into the lowermost compartment, and means to introduce vapor into the upper compartment, there being an exit in the latter for the exit of the fluid of condensation.
  • a condenser In a condenser the combination of a hollow body for receiving the vapor to be condensed, a series of substantially vertically disposed tubes opening through the top and bottoni thereof, the same being free and open at each end, a receptacle on which the inclosure is mounted, a pipe connected into the receptacle for introducing water thereto, a conduit connected into the container for introducing vapor to the latter and an open receiver for water at the top of the container i with which the tubes communicate.
  • a condenser in a condenser the combination of a hollow closed body, a series of open vertically disposed tubes therein extending through the top and bottom of said body, there being' an open receiver at the top of the body with which the tubes communicate, a closed receiver constantly supplied with water and upon which the body is mounted, a conduit adapted for delivering vapor into the body and an outlet in the latter.
  • a condenser in a condenser the combination of a hollow closed body, a series ot' open vertically disposed tubes therein extending through the top and bottom of said body, there being an open receiver at the top of the body with which the tubes communicate, a closed receiver constantly supplied with water and upon which the body is mounted, a conduit extending into the body and having provision for discharging vapor against the said tubes, and an outlet in said body for the discharge of the fluid of condensation.
  • a condenser In a condenser the combination of a hollow closed body, a series of open substantially vertically disposed tubes therein and extending through its top and bottom, the walls ot the body extending above the top of the condenser and above the upper open ends of the tubes to form an open receptacle, a receptacle constantly supplied with water and upon which the body is mounted and with which the tubes communicate, a valve controlled conduit connected into said receptacle, a conduit connected with and opening into the hollow body and having perforations therein opposite said tubes for the dis- 110 charge of vapor against the latter, there be ⁇ ing an outlet in said body.
  • a condenser the combination of la hollow closed body, a series of open substantially vertically disposed tubes extending 115 through the top and bottom of the body, the walls of said body having vertical extensions above the level ofthe upper ends of the tubes to form an open receptacle with which the said tubes communicate, the said vertical 120 extensions having' provision therein for the outflow of water, means to supply a flow of water into the lower ends of the tubes and up through the same, a conduit to discharge vapor into the body, and a discharge opening 125 in the latter.
  • a condenser In a condenser the combination of a hollow closed body, a series of pipes therein for carrying a cooling-water, a vapor conducting pipe extending into the body among 130 thepipes and provided with discharge-pei1v ⁇ tures opposite the several pipes for the discharge of vapor against the latter, there being a discharge opening ⁇ in one of the Walls oit' the body for the discharge of the Water of condensation.
  • a ⁇ condenser With a hollow closed body provided with a series of pipes for conveying a cooling-Water, a vapor conducting pipe extending into the body betweeny the pipes the saine being returned upon itself in a series of substantially para-1- leiy extensions providedv with discharge aper ⁇ tures opposite the pipe through which Vapor is discharged against the said pipes, there being anoutlet from the body for the Water of condensation.

Description

E. N. WOODRUFF. CONDENSER.
APPLIOATION FILED DBO. 23, 190s.
935,446. Patented sept.28,19o9.
hmm
Inmm-mlul .fl/F.
'mnnsw 5 Gamm co. Prmmuwomuwzns. wAsmuGmN. a c,
EDWARD N. WOODRUFF, OF PEORIA, ILLINOIS.
CONDENSER.
Specification of Letters Patent.
Patented Sept. 28, 1909.
Application filed December 23, 1908. Serial No. 468,506.
To all whom it may concern.'
Beit known that I, EDWARD N. TWooDRUrr, citizen of the United States, residing at Peoria, in the county of Peoria and `State of Illinois, have invented certain new and useful Improvements in Condensers; and I do hereby declare that the following is a full, clear, and exact description of the invention, which will enable others skilled in the art to which it appertains to make and use thc same.
This invention relates to condensers of the type adapted for condensing steam, or other vapors; the form to be described herein being particularly and peculiarly adapted for use in artificial ice plants where an apparatus that can be made to operate continuously and uninterruptedly is desired.
One of the objects of the invention is to provide a form of condenser in which vertically disposed pipes or tubes are used and up through which a cooling agent is made to flow and against which the vapor to be condensed is made to impinge.
Another object is to pass a cooling water up through the said pipes and then cause it to flow down over the outer surfaces of the Walls of said chamber thereby using the said agent twice for cooling purposes.
Another object is to provide a condenser that may be quickly and thoroughly cleaned without stopping its action or closing down any part of the plant with which it is connected.
Preferably I use a supply reservoir placed higher than the condenser so that the water is made to rise through the vertically disposed pipes within the body of the condenser and then tiow downward as described, the water being very evenly distributed over the condenser so as to run down its several walls in a sheet.
I am enabled by my construction to regulate the flow of.the cooling water thereby making it possible in condensing the vapor to maintain itat a moderately high temperature when it is desired to employ it in that condition in further processes. My condenser also by the proper regulations has the advantage of permitting raising the temperature of the cooling water to a degree that a considerable quantity of lime and magnesia and such other minerals as are common to it will be deposited on the surfaces of the pipes or tubes whereby the water will be better fitted as a feed water for boilers.
In the accompanying drawing Figure l is a side elevation of the condenser a portion of which is broken away to show the interior arrangement. Fig. 2 is a transverse sectional elevation of the same. a perspective view of a portion of the top of the condenser. Fig. le is a plan of a portion of the same. Fig. 5 is a perspective view of a portion of a pipe which conveys va por into and throughout the condenser.
A indicates a receptacle for cooling water, preferably in the form of a pan, having a flange B around its upper edge. On this is mounted the condenser-body C also provided with a fiange D which is secured to said liange B by means of bolts E. The said body C is merely a steam tight casing consisting of the side and end walls as shown and properly tted with a bottom F and a top G. Erected within the casing is a series of vertically disposed pipes or tubes I-I arranged, in the present case, in two rows and whose ends extend through both the top Gr and the bottom F substantially as shown. The top G is placed below the top edges of the walls of the body so as to constitute a pan or container for water and the said walls above the pan are serrated so as to provide a series of notches preferably atregular intervals. Opening through one of the end walls into this pan is a pipe .I which connects into a T-tting K and connected to each end of the latter is a pipe L which is made to extend along the sides of the body C substantially parallel thereto and provided with perforations adjacent to the walls one of which perforations is shown at M in Fig. 3, the ends of the pipe L being capped as also shown in this figure. A pipe N is connected into the receptacle A and conveys water thereto, said pipe being' provided with a valve O to regulate the flow of the water which is preferably fed by gravity from a source of water having a position above the condenser as already intimated. The said receptacle A is provided with clean out openings, not shown, and suitably covered at a a and has a pipe o controlled by a valve o through which the pan may be emptied and drained when desired. Connected into one of the end walls of the body C is a pipe P for the vapor to be condensed. This pipe extends between the two rows of Fig. 3 is pipes -I preferably the full length of the I body and it may be terminated at the opposite side from which it enters or, as shown in the drawing, it may be returned toward the end at which it enters and then again be carried to the opposite end and again back as many times as may be desired. At opposite sides of the pipes as shown in Fig. 5, are perforations Q opposite the several tubes Il so that the vapor projected therefrom will be made to impinge upon said tubes or pipes. In the end wall of the body C opposite that through which the pipe l is entered is a pipe It constituting an outlet for the fluid of condensation. Beneath the condenser is a pan S for receiving the cooling water discharged from the condenser,
,there being a pipe T to conduct the water to the sewer or to a suitable container for further use.
In ope 'ation the cooling water enters and fills the pan A through the pipe N and rises through the pipes or tubes Irl into the pan at the top of the condenser. The water overflows from the upper pan runs out through the notches or serrations before described, and down the side and end walls of the body C into the pan S. Preferably I provide a trough U near the bottom of the condenser body which extends entirely around the latter and serves to catch the water as it runs down the walls of the container, said trough discharging the water into the said pan S. But this trough is merely a preferred way of catching the water so that it will not flow over the flanges B D and it need not be used. The vapor enters the body C through the pipe P and is discharged through the perforations Q against Y the pipes I-I and the fluid resulting from condensation flows down said pipes and finally out of the body C through the escape pipe It. The vapor within the body also condenses upon the entire surface of the pipes and upon the walls of the body C, the combined cooling areas being sufficient to thoroughly and continually carry on the process of condensation. Since the flow of the cooling water is from below it is coldest at the lower ends of the pipes H and the vapor entering at the bottom of the body (l is at its highest degree of heat and is made to first impinge on the coldest part of the pipes which result in rapid condensation and since t-he body C becomes filled with the vapor it must rapidly condense on all the wall surfaces and the advantage of the double use of the cooling water is thus apparent making the condenser very economical and effective. Evidently it is not necessary to provide a reservoir above the pipe H if proper provision is made to distribute the water evenly down the sides of the body C as it leaves the said pipes. The minerals in the cooling water will naturally be deposited in the tubes and the said tubes can be readily cleaned as thoroughly and as often as desired by the use of any forni of boiler tube cleaner without interrupting the action of the condenser. Since the pipes are entirely open at the top the implement can be inserted at any time and the entire series cleared of deposits. Since the lower ends of pipes open into the receptacle A below the deposits fall thereinto and from time to time said receptacle may be cleaned out through the openings provided for that purpose. In addition to having the top edges of the wall of the body C serrated I provide theV perforated pipes L already described into which the water iiows from the pan and is discharged through the perforations M upon the wall of the body and I may use either or both methods as I may see fit so as to obtain the desired sheet of water upon the walls.
Having set forth the construction and particular advantages of my condenser, I claimsl. In a condenser the combination of a hollow body, a series of pipes erected therein and extending through its top and bottoni and open at their upper ends above said top, a receptacle for cooling water beneath the body, means to cause the water to rise from the receptacle into and through the pipes and out at their upper ends upon the top of the body, means to cause an even distribution of water flowing from the pipes upon the outer surfaces of the walls of the body of the condenser, and means connected with the interior of the body through which vapor is introduced into said body there being a discharge opening in the body for the water of condensation.
2. In a condenser the combination of a hollow closed body, a series of open substantially vertically disposed tubes extending through the top and bottom of said body, the walls of thebody having vertical extensions above the ends of the tubes to form an open receiver above said tubes and with which the latter communicate, there being provision on the extensions of the wall to provide for an even flow of water down the outer surfaces of the walls of the body, means to introduce water in the lower ends of the tubes and compel it to flow up through them, means to introduce vapor into the body, there being an outlet in said body for 'the discharge of the fluid of condensation.
3. In a condenser the combination of a hollow closed body, having a horizontally disposed division wall dividing it into two compartments, an upper and a lower, a series of verticallyv disposed open tubes extending through the said division wall and thus communicating with the lower of the said com partments and extending also through the top of the body, a receiver for water at the top of the body, a conduit to introduce water into the lower compartment and cause it to ascend through the tubes into the receiver at the top of the body, and means to introduce vapor into the upper compartment, there being an outlet in the latter for tlie purposes set forth.
fl. In a condenser the combination of a hollow closed body, having a horizontally disposed division wall dividing the body into two compartments, an upper and a lower, a series of' vertically disposed open tubes extending through the top of' the body and through the said division wall the said tubes communicating with the lower of the compartments, a receiver at the top of the body with which the tubes communicate, a conduit to introduce water into the lower coinpartment, there being provision at the top of the body to evenly discharge water from the receiver upon the outer surfaces of the walls of the body, and means to conduct vapor into the upper compartment and having provision for projecting the same against the tubes, there being an outlet for fluid in said body.
5. In a condenser the combination of a hollow closed body having a substantially horizontal division wall therein dividing' said body into two compartments, an upper and a lower, a series of vertically disposed open tubes in said body extending through the top of the latter and said division wall said tubes being open at each end and communicating with the lower compartment, the walls of the body having vertical extensions above the upper ends of the tubes to constitute an inclosure, there being serrations in said extensions for the purposes set forth, means to introduce water into the lower compartment, and means to introduce vapor into the upper compartment, there being an exit in the latter for the fluid of condensation.
G. In a condenser the combination of a hollow closed body having' a substantially horizontal division wall therein dividing said body into two compartments, an upper and a lower, a series of vertically disposed l open tubes in said body extending through the top of the latter and said division wall, a receiver at the top of the body above the tubes, said tubes being' open at each end and communicating with the lower compartment and the receiver, conduits connected with the receiver and extending along the walls of the body and having perforations adjacent to said walls, means to introduce water into the lowermost compartment, and means to introduce vapor into the upper compartment, there being an exit in the latter for the exit of the fluid of condensation.
7 In a condenser the combination of a hollow body for receiving the vapor to be condensed, a series of substantially vertically disposed tubes opening through the top and bottoni thereof, the same being free and open at each end, a receptacle on which the inclosure is mounted, a pipe connected into the receptacle for introducing water thereto, a conduit connected into the container for introducing vapor to the latter and an open receiver for water at the top of the container i with which the tubes communicate.
8. In a condenser the combination of a hollow closed body, a series of open vertically disposed tubes therein extending through the top and bottom of said body, there being' an open receiver at the top of the body with which the tubes communicate, a closed receiver constantly supplied with water and upon which the body is mounted, a conduit adapted for delivering vapor into the body and an outlet in the latter.
9. In a condenser the combination of a hollow closed body, a series ot' open vertically disposed tubes therein extending through the top and bottom of said body, there being an open receiver at the top of the body with which the tubes communicate, a closed receiver constantly supplied with water and upon which the body is mounted, a conduit extending into the body and having provision for discharging vapor against the said tubes, and an outlet in said body for the discharge of the fluid of condensation.
l0. In a condenser the combination of a hollow closed body, a series of open substantially vertically disposed tubes therein and extending through its top and bottom, the walls ot the body extending above the top of the condenser and above the upper open ends of the tubes to form an open receptacle, a receptacle constantly supplied with water and upon which the body is mounted and with which the tubes communicate, a valve controlled conduit connected into said receptacle, a conduit connected with and opening into the hollow body and having perforations therein opposite said tubes for the dis- 110 charge of vapor against the latter, there be` ing an outlet in said body.
ll. In a condenser the combination of la hollow closed body, a series of open substantially vertically disposed tubes extending 115 through the top and bottom of the body, the walls of said body having vertical extensions above the level ofthe upper ends of the tubes to form an open receptacle with which the said tubes communicate, the said vertical 120 extensions having' provision therein for the outflow of water, means to supply a flow of water into the lower ends of the tubes and up through the same, a conduit to discharge vapor into the body, and a discharge opening 125 in the latter.
l2. In a condenser the combination of a hollow closed body, a series of pipes therein for carrying a cooling-water, a vapor conducting pipe extending into the body among 130 thepipes and provided with discharge-pei1v` tures opposite the several pipes for the discharge of vapor against the latter, there being a discharge opening` in one of the Walls oit' the body for the discharge of the Water of condensation.
p 13. In a` condenser thecoinbination With a hollow closed body provided with a series of pipes for conveying a cooling-Water, a vapor conducting pipe extending into the body betweeny the pipes the saine being returned upon itself in a series of substantially para-1- leiy extensions providedv with discharge aper` tures opposite the pipe through which Vapor is discharged against the said pipes, there being anoutlet from the body for the Water of condensation. Y
In testimony whereof I aix my signature, in presence of tWo Witnesses.
EDNARD N. VOODRUFF.
itnesses L. M. THURLOW, AUGUSTA BURKH-ARDT.
US46890608A 1908-12-23 1908-12-23 Condenser. Expired - Lifetime US935446A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US46890608A US935446A (en) 1908-12-23 1908-12-23 Condenser.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US46890608A US935446A (en) 1908-12-23 1908-12-23 Condenser.

Publications (1)

Publication Number Publication Date
US935446A true US935446A (en) 1909-09-28

Family

ID=3003869

Family Applications (1)

Application Number Title Priority Date Filing Date
US46890608A Expired - Lifetime US935446A (en) 1908-12-23 1908-12-23 Condenser.

Country Status (1)

Country Link
US (1) US935446A (en)

Similar Documents

Publication Publication Date Title
US1116903A (en) Oil-separator.
US935446A (en) Condenser.
US470060A (en) The norbis feters co
US1163437A (en) Apparatus for cleansing steam and heating water.
US949217A (en) Steam-condenser, water-heater, and oil-separator.
US719319A (en) Water purifier and heater.
US581439A (en) Apparatus for cooling
US378495A (en) Bdwaed g
US390537A (en) Feed-water heater
US665995A (en) Feed-water heater and purifier.
US567868A (en) Water-heater
US313287A (en) Feed-water heater and purifier
US440410A (en) nelson
US851957A (en) Water-purifying apparatus.
US238524A (en) petesoh
US572834A (en) smith
US542400A (en) Milk-heater
US458798A (en) Ammonia-still
US385769A (en) Feed-water heater and purifier
US748564A (en) Distilling apparatus.
US600943A (en) Refrigerator
US205295A (en) Improvement in milk-coolers
US623880A (en) John d
US440231A (en) Samuel morris lillie
US907756A (en) Water-heater.