US981722A - Steam-generator. - Google Patents

Steam-generator. Download PDF

Info

Publication number
US981722A
US981722A US52037509A US1909520375A US981722A US 981722 A US981722 A US 981722A US 52037509 A US52037509 A US 52037509A US 1909520375 A US1909520375 A US 1909520375A US 981722 A US981722 A US 981722A
Authority
US
United States
Prior art keywords
water
drum
drums
steam
inlet
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
US52037509A
Inventor
Jean Van Oosterwyck
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 US52037509A priority Critical patent/US981722A/en
Application granted granted Critical
Publication of US981722A publication Critical patent/US981722A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B21/00Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically
    • F22B21/02Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes
    • F22B21/04Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes involving a single upper drum and a single lower drum, e.g. the drums being arranged transversely
    • F22B21/08Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes involving a single upper drum and a single lower drum, e.g. the drums being arranged transversely the water tubes being arranged sectionally in groups or in banks, e.g. bent over at their ends
    • F22B21/088Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes involving a single upper drum and a single lower drum, e.g. the drums being arranged transversely the water tubes being arranged sectionally in groups or in banks, e.g. bent over at their ends involving an upper drum and a lower drum and two lateral drums

Definitions

  • Tn NURRIS PETERS co, wAsl-lmaroh, o. c.
  • the object of the present invention is to provide improved means for the generation of steam.
  • Figure l is a vertical longitudinal section on AB (Fig. 2) representing a boiler having two sets of water tubes or drums.
  • Fig. 2 is a transverse section on CD (Fig. 1)
  • Fig. shows, upon a larger scale, in vertical section and plan, the means employed for the partitioning off or dividing-up of the drums or shells.
  • Fig. l is a vertical longitudinal section substantially on the line E, F of Fig. showing a boiler including three sets of tubes or drums.
  • Fig. 5 is a transverse section substantially on the line G, H, of Fig. 4:.
  • the boiler composed of a plurality of elements each formed by two superimposed and interconimunicating boiler tubes or cylindrical drums or shells a and I).
  • the connection of the two drums is effected by short vertical tubes or passages 0 of which that at the one end of the drum carries at its upper end or within its interior an upright extension tube or pipe (Z for the passage of the generated steam, while that at the other end of the drum is fitted with a similar exten sion tube or pipe 0 for the passage of the feed-water from the one drum to the other.
  • the position and arrangement of these steam and feed-water tubes or passages (Z, 6 has considerable influence on the eflicient working of the boiler as hereinafter described.
  • the steam tube (Z is situated at the front above the fire-grate 0, as complete cvaporization takes place only above the fire-grate, the feed-water pipe 6, on the contrary, is placed at the rear, so as to cause the water to traverse as long a distance as possible within the interior of the generator.
  • the vertical elements of the boiler constituted by the drums or shells at and Z) communicate horizontally with each other in such a manner that the feed-water shall flow horizontally through the upper drums in a circuitous path before passing to the lower drums.
  • the feed-water enters at 9, into one'of the upper drums a. It then passes into the adjacent drum (5 by the communicating passages 72, and thence into the lower drums b which also communicate with one another by the passages g.
  • the feed is preferably efiected through the central drum a, as hereafter described.
  • the flues are arranged so that the hot gases pass in an opposite direction to that of the water.
  • the upper drums a are surmounted by a steam dome f for collecting the steam, provided with a safety valve.
  • the water-space of the drums or shells a and b is, at certain points, subdivided transversely by means of separated partitions or battle plates placed across the interior of the drums.
  • partitions or battles the water in each drum is divided into a plurality of bodies of different temperatures instead of having the entire body of substantially one temperature. Thatis, all of the water in the compartment or division nearest the inlet end of each drum will be cooler than the Water in the compartment adjacent the outlet or discharge from the drum, whereas if the partitions or baffles were not employed the entire body of water throughout the drum would have substantially the same temperature.
  • This division is effected by means of movable plates 71., capable of pivoting about horizontal hinge pivots 2'.
  • the movable plates moreover have the effect of preventing oil and magnesia, Which collects upon the surface of the water, from entering the lower part of the generator.
  • the movable partitions h preferably carry an additional plate or shutter 74, fixed upon them, but separated therefrom by a short distance.
  • This plate or shutter 70 causes the water charged with oil, scum or other material of less density than water, to accumulate at the upper level, so that only the clear water can descend to the bottom part of the boiler.
  • the division or battle plates in are of the same shape as the inside of the drum and their upper edges come at the same height as, or slightly below, the normal water level.
  • the shutters 70 extend upward out of the water while their lower edges come just below the central axis of the drum.
  • the feeding of the boiler is effected, as
  • the cold water would descend directly into the lower drum without pre viously being warmed-up, and without being purified, owing to the resistance offered to the passage of the water through the horizontal connecting passages between the boilers, whose size is small.
  • the steam passages c are placed over the fire-grate 0 at a point where the water is always sufficiently hot to prevent condensation in the tubes cl. These latter extend to a certain level above the normal water level.
  • the upper extremities of the tubes 6 are surrounded by rings 7, open at top and bottom, and separated a short distance from the said tubes. These rings a" extend above the normal water level, similarly to the shutter plates 70.
  • a steam generator comprising a plural ity of elements, each including two drums arranged one above the other and connected by suitable vertical ducts, the upper drum of one element being provided adjacent one end with a suitable inlet, and water conduits connecting the upper and lower drums of said element with the corresponding drums of an adjacent element near the ends of said drums farthest from the inlet, whereby water 1s caused to circulate through all of the upper drums before passing to any of the lower drums.
  • a steam generator comprising a plurality of elements, each including two drums arranged one above the other, the upper drum of one element having a water inlet adjacent one end and communicating near both ends with the drum below it by conduits that extend above the water level in said upper drum, water conduits connecting the upper drums adjacent the opposite ends thereof from the inlet, means for conducting water from the upper to the lower drum, of a second element adjacent their ends nearest the inlet of the water drum of the first said element, and water conduits connecting the lower drums adjacent the ends thereof farthest from said inlet for the purpose described.
  • a steam generator comprising a plural ity of elements, each including two drums arranged one above the other, the upper drum of one element having a water inlet adjacent one end and communicating adjacent both ends with the drum below it through steam conduits that extend to points above the water level in the upper drum, lateral conduits connecting the upper drums below the water level therein, adjacent the ends farthest from the inlet, similar conduits connecting the lower drums, a water conduit connecting the upper drum of each element, except the one having the aforesaid inlet, with the drum below it, adjacent the end nearest said inlet, whereby the water is caused to circulate through all of the upper drums before passing to any lower drum, and a baiiie surrounding the upper end of the water conduit that connects the two drums of an element.
  • a steam generator comprising a plurality of elements, each including two drums arranged one above the other, one of said upper drums having a suitable water inlet, tubular connections between the several upper drums, similar connections between the lower drums, and vertical tubes connecting the members of each element and constituting conduits for steam and feed water, all of the vertical tubes between said inlet drum and the drum below it extending above the water level in the upper drum, whereby the water is caused to circulate through all of the upper drums before passing to any of the lower drums.
  • a substantially horizontal drum having suitable inlet and outlet passages, a battle extending transversely of the interior of the drum with its upper edges above the level of water therein, said battle being pivotally supported whereby it is adapted to be automatically rocked to permit the dIUDitO be emptied when the outlet passage is opened.
  • a steam generator the combination with a drum provided with suitable inlet and outlet openings, of a baffle plate extending across the water space within the drum to maintain therein two bodies of water of difi'erent temperatures, said loafiie being adapted to automatically move into inoperative position as water is drawn from the drum to empty it.
  • a steam generator the combination with two drums arranged one above the other, the upper drum being provided with suitable water inlet and steam outlet openings, tubes connecting said drums and adapted, respectively, to conduct water from the upper to the lower drum and steam from the lower to the upper drum, and a bafile surrounding the end of the water conducting tube in the upper drum and extending above and below the level of water in said drum.

Description

J. VAN OOSTERWYGK.
STEAM GENERATOR.
APPLIOATIQN FILED SEPT. 30, 1909.
Patented Jan. 17, 1911.
2 SHEETSSHEET 1.
ms uamus PETERS 00., wnsmmsmw, n. c.
J. VAN OOSTERWYGK.
STEAM GENERATOR.
APPLICATION FILED SEPT. 30, 1909.
v981,722. Patented Jan. 17, 1911.
2 SHEETS-SHEET 2.
Tn: NURRIS PETERS co, wAsl-lmaroh, o. c.
llNl
JEAN VAN OOSTERWYCK, OF LIEGE, BELGIUM.
STEA1VI-GENERATOR.
Specification of Letters Patent.
Patented Jan. 17, 1911.
Application filed September 30, 1909. Serial No. 520,375.
T 0 all whom it may concern:
Be it known that I, JEAN VAN Oos'rnR- "WYCK, manufacturer, subject of the King of Belgium, residing at Liege, Belgium, have invented certain new and useful Improvements in Steam-Generators; and I hereby declare the following to be a full, clear, and exact description of the invention.
The object of the present invention is to provide improved means for the generation of steam.
The accompanying drawings represent by I way of example, two forms of boilers constructed in accordance with this invention.
Figure l is a vertical longitudinal section on AB (Fig. 2) representing a boiler having two sets of water tubes or drums. Fig. 2 is a transverse section on CD (Fig. 1) Fig. shows, upon a larger scale, in vertical section and plan, the means employed for the partitioning off or dividing-up of the drums or shells. Fig. l is a vertical longitudinal section substantially on the line E, F of Fig. showing a boiler including three sets of tubes or drums. Fig. 5 is a transverse section substantially on the line G, H, of Fig. 4:.
The boiler composed of a plurality of elements each formed by two superimposed and interconimunicating boiler tubes or cylindrical drums or shells a and I). The connection of the two drums is effected by short vertical tubes or passages 0 of which that at the one end of the drum carries at its upper end or within its interior an upright extension tube or pipe (Z for the passage of the generated steam, while that at the other end of the drum is fitted with a similar exten sion tube or pipe 0 for the passage of the feed-water from the one drum to the other. The position and arrangement of these steam and feed-water tubes or passages (Z, 6 has considerable influence on the eflicient working of the boiler as hereinafter described. The steam tube (Z is situated at the front above the fire-grate 0, as complete cvaporization takes place only above the fire-grate, the feed-water pipe 6, on the contrary, is placed at the rear, so as to cause the water to traverse as long a distance as possible within the interior of the generator.
The vertical elements of the boiler, constituted by the drums or shells at and Z) communicate horizontally with each other in such a manner that the feed-water shall flow horizontally through the upper drums in a circuitous path before passing to the lower drums. In the case of a boiler having two vertical sets of tubes or drums (Figs. 1 and 2), the feed-water enters at 9, into one'of the upper drums a. It then passes into the adjacent drum (5 by the communicating passages 72, and thence into the lower drums b which also communicate with one another by the passages g. In the case of a boiler with three elements (Figs. 4 and 5) the feed is preferably efiected through the central drum a, as hereafter described. The flues are arranged so that the hot gases pass in an opposite direction to that of the water. The upper drums a are surmounted by a steam dome f for collecting the steam, provided with a safety valve.
The water-space of the drums or shells a and b is, at certain points, subdivided transversely by means of separated partitions or battle plates placed across the interior of the drums. By means of these partitions or battles the water in each drum is divided into a plurality of bodies of different temperatures instead of having the entire body of substantially one temperature. Thatis, all of the water in the compartment or division nearest the inlet end of each drum will be cooler than the Water in the compartment adjacent the outlet or discharge from the drum, whereas if the partitions or baffles were not employed the entire body of water throughout the drum would have substantially the same temperature. This division is effected by means of movable plates 71., capable of pivoting about horizontal hinge pivots 2'. These movable plates moreover have the effect of preventing oil and magnesia, Which collects upon the surface of the water, from entering the lower part of the generator. The movable partitions h preferably carry an additional plate or shutter 74, fixed upon them, but separated therefrom by a short distance. This plate or shutter 70 causes the water charged with oil, scum or other material of less density than water, to accumulate at the upper level, so that only the clear water can descend to the bottom part of the boiler. The division or battle plates in are of the same shape as the inside of the drum and their upper edges come at the same height as, or slightly below, the normal water level. The shutters 70 extend upward out of the water while their lower edges come just below the central axis of the drum. Theturning movement of the plates it about their pivots 71 is necessary in order to admit of the emptying of the boiler through a single outlet. With this object, the plates 7t are slightly inclined, as shown in the drawings; as each face is subjected to an equal pressure of water, they fall by their own weight either against the internal walls of the drum or against a special flange located within the latter. A water-tight partition is thus formed. When the outlet through which the boiler is emptied is opened (situated at the front of the boiler in the example represented) the different compartments empty themselves and by the force of the water the partitions hare caused to swing upon their pivots and open.
The feeding of the boiler is effected, as
previously described, through one of the two upper shells or drums a in the case of a.
boiler having two elements, and through the middle drum a in the case of a boiler having three elements. The overflow feed-pipe e of drum (4 into which the feed water enters,
is situated at a slightly higher level than the normal water level, and consequently also higher than the openings at (see Figs. at and 5) by which communication between the adjacent drums at is effected. By this means the water is prevented from descending directly into the corresponding lower drum Z),
and is first caused to flow through the lat-; eral openings m into the two side drums a. 3 In the latter the ends of the feed or overflow passages are situated at the height of the normal water-level, so that the filling of the lower drums or shells I) or evaporators is effected through the two side shells Z) and through the passages a. Therefore it fol- 3 lows that at the upper row the central drum T feeds the side shells, and at the lower level the f A systemi side drums feed the middle one. atic heating is thus obtained. it-bout increasing the height of the overflow pipe in the feed drum, the cold water would descend directly into the lower drum without pre viously being warmed-up, and without being purified, owing to the resistance offered to the passage of the water through the horizontal connecting passages between the boilers, whose size is small. The steam passages c are placed over the fire-grate 0 at a point where the water is always sufficiently hot to prevent condensation in the tubes cl. These latter extend to a certain level above the normal water level.
In order to prevent, in conjunction with the shutters 71;, the descent of impurities which float in the shells Z), the upper extremities of the tubes 6 are surrounded by rings 7, open at top and bottom, and separated a short distance from the said tubes. These rings a" extend above the normal water level, similarly to the shutter plates 70.
Having fully described my invention,
what I desire to claim and secure by Letters Patent is 1. A steam generator comprising a plural ity of elements, each including two drums arranged one above the other and connected by suitable vertical ducts, the upper drum of one element being provided adjacent one end with a suitable inlet, and water conduits connecting the upper and lower drums of said element with the corresponding drums of an adjacent element near the ends of said drums farthest from the inlet, whereby water 1s caused to circulate through all of the upper drums before passing to any of the lower drums. V
2. A steam generator comprising a plurality of elements, each including two drums arranged one above the other, the upper drum of one element having a water inlet adjacent one end and communicating near both ends with the drum below it by conduits that extend above the water level in said upper drum, water conduits connecting the upper drums adjacent the opposite ends thereof from the inlet, means for conducting water from the upper to the lower drum, of a second element adjacent their ends nearest the inlet of the water drum of the first said element, and water conduits connecting the lower drums adjacent the ends thereof farthest from said inlet for the purpose described.
3. A steam generator, comprising a plural ity of elements, each including two drums arranged one above the other, the upper drum of one element having a water inlet adjacent one end and communicating adjacent both ends with the drum below it through steam conduits that extend to points above the water level in the upper drum, lateral conduits connecting the upper drums below the water level therein, adjacent the ends farthest from the inlet, similar conduits connecting the lower drums, a water conduit connecting the upper drum of each element, except the one having the aforesaid inlet, with the drum below it, adjacent the end nearest said inlet, whereby the water is caused to circulate through all of the upper drums before passing to any lower drum, and a baiiie surrounding the upper end of the water conduit that connects the two drums of an element.
4. A steam generator comprising a plurality of elements, each including two drums arranged one above the other, one of said upper drums having a suitable water inlet, tubular connections between the several upper drums, similar connections between the lower drums, and vertical tubes connecting the members of each element and constituting conduits for steam and feed water, all of the vertical tubes between said inlet drum and the drum below it extending above the water level in the upper drum, whereby the water is caused to circulate through all of the upper drums before passing to any of the lower drums.
In a steam generator, the combination with a drum provided'wit-h suitable inlet and outlet openings, of a pivotally mounted battle extending transversely across the water space within the drum between the inlet and outlet thereof, and adapted to automatically move about its pivot to permit the drum to be completely emptied when the outlet is opened.
6. In a steam generator, the combination with a drum provided with suitable inlet and outlet openings, of a pivotally mounted baffle extending transversely across the water space within the drum between the inlet and outlet thereof, said battle comprising two members spaced apart and one of which extends above the level of the water in the drum.
7. In a steam generator, the combination of a substantially horizontal drum having suitable inlet and outlet passages, a battle extending transversely of the interior of the drum with its upper edges above the level of water therein, said battle being pivotally supported whereby it is adapted to be automatically rocked to permit the dIUDitO be emptied when the outlet passage is opened.
8. In a steam generator, the combination of a plurality of drums and means connecting the drums so that the feed water is caused to circulate through all of the series, and transverse battles extending across the water spaces in the drums and each comprising two members spaced apart and one of which projects above the level of water in the drum.
9. In a steam generator, the combination with a drum provided with suitable inlet and outlet openings, of a baffle plate extending across the water space within the drum to maintain therein two bodies of water of difi'erent temperatures, said loafiie being adapted to automatically move into inoperative position as water is drawn from the drum to empty it.
10. In a steam generator, the combination with two drums arranged one above the other, the upper drum being provided with suitable water inlet and steam outlet openings, tubes connecting said drums and adapted, respectively, to conduct water from the upper to the lower drum and steam from the lower to the upper drum, and a bafile surrounding the end of the water conducting tube in the upper drum and extending above and below the level of water in said drum.
In testimony whereof I affix my signature in presence of two witnesses.
JEAN van oosTnnwYoK.
lVitnesses PIERRE BnoUHoN, A. PnNnLn'roN GRUGER.
US52037509A 1909-09-30 1909-09-30 Steam-generator. Expired - Lifetime US981722A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US52037509A US981722A (en) 1909-09-30 1909-09-30 Steam-generator.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US52037509A US981722A (en) 1909-09-30 1909-09-30 Steam-generator.

Publications (1)

Publication Number Publication Date
US981722A true US981722A (en) 1911-01-17

Family

ID=3050085

Family Applications (1)

Application Number Title Priority Date Filing Date
US52037509A Expired - Lifetime US981722A (en) 1909-09-30 1909-09-30 Steam-generator.

Country Status (1)

Country Link
US (1) US981722A (en)

Similar Documents

Publication Publication Date Title
US981722A (en) Steam-generator.
US1179412A (en) Marine water-tube boiler and superheater.
US714084A (en) Steam-boiler.
US178244A (en) Improvement in circulating devices for steam-boilers
US676632A (en) Boiler.
US557189A (en) Hot-water heating apparatus
US585680A (en) Water-tube steam-boiler
US1432721A (en) Boiler
US1262145A (en) Water-tube steam-boiler.
US657968A (en) Separator for steam-generators.
US2281431A (en) Boiler
US319232A (en) goubebt
US458042A (en) Steam-boiler furnace
US681623A (en) Water-tube boiler.
US263615A (en) Steam-generator
US313838A (en) stollwerck
US794338A (en) Water-tube boiler.
US872299A (en) Feed-water distributing-pan mechanism.
US699812A (en) Steam-boiler.
US735427A (en) Steam-boiler.
US776923A (en) Steam-generator.
US416558A (en) Steam-boiler
US1851010A (en) Steam boiler
US1097599A (en) Boiler.
US836287A (en) Steam-generator.