US135906A - Improvement in condensers for steam-engines - Google Patents

Improvement in condensers for steam-engines Download PDF

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US135906A
US135906A US135906DA US135906A US 135906 A US135906 A US 135906A US 135906D A US135906D A US 135906DA US 135906 A US135906 A US 135906A
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steam
pipe
chamber
valve
engines
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F23/00Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
    • B01F23/20Mixing gases with liquids
    • B01F23/23Mixing gases with liquids by introducing gases into liquid media, e.g. for producing aerated liquids
    • B01F23/234Surface aerating

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  • the rst part of my invention relates to a new kind of condenser for steam-engines, and the second part to a feed-water heater in combination therewith.
  • Figure l is a sectionall elevation.
  • Figs. 2 andi 3 represent the foot-valve on an enlarged sca e.
  • a A is the exhaust-pipe; B, the blow-throu gh pipe; C, the condensing-chamber; D, a pipe connecting the condensing-chamber with the blow-through pipe; E, hot-well; F, a pipe connecting the blow-through pipe with the feed-water heater; G, feed-water heater; H, iltering-chamber within the heater; I, injection-pipe; J, overow-pipe; K, feed-water pipe to boiler; a, valve operated by the engine to close the passage to the condenser when blowing through; b, clack-valve to prevent the steam from passing into the condensing-chamber up the ypipe D while blowing through; c, a valve to trap the steam and water that is blown into the heater during the process of blowing through; el, foot-valve in blow-throu gh pipe openin g downward; e, strum or perforated diaphragm upon the top of the condensing-chamber;
  • valve a For the greater part of the stroke of the engine the valve a is open and the exhaust steam passes freely into C, when it meets with the injection water coming in through I, is condensed, and falls with the Waterto the bottom of the condensing-chamber and through had accumulated in said pipe.
  • the valve a remains closed but a short time--say, during the last one or two inches of the strokewhen it again opens, allowing the rest of the steam to pass into the condensing-chamber, as before, and this operation is continuously repeated.
  • the valve b is closed by the pressure of the steam in B during the process of blowing through.
  • the foot-valve d is kept closed by atmospheric pressure, except when blowing through.
  • blowthrough pipe exhaustpipe, and condensing-chamber
  • the condensingchamber may surround or contain the blowthrough pipe, instead of being placed by its side or above it.
  • the leading principle of this invention is a blow-through pipe and condensing-chamber with a passage between them, which is alternately opened and closed so as to allow the exhaust steam to either flow into the condensing-chamber to be condensed or to send it through the blow-through pipe to oarry'out the water of condensation, substantially as described.
  • blow-t11rough pipe B and condensingchmnber is C, when operating as described.
  • a condenser for steam-engines composed SIMEON A. GOODWIN. 0f the b10wthrough pipe B and condensingchamber C, and operating substantially as de- witnesseses:

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Description

s. A. Goon'wm.
Condensers for Steam-Engines.
Patented Feb.18',1873.
jlwelz @if U NrrEn S'rA'rns sIMEoN A. GoonwIN, or BUFFALo, New YORK, AssieNon 'ro WILLIAM D. TABER, or sAME PLAGE.
IMPROVEMENTIN CONDENSERS FOR STEAM-ENGINES.
Specification forming part of Letters Patent No. 135,906, dated February 18, 1873.
To all whomt may concern:
Beit known that I, SIMEON A. GOODWIN, of Buffalo, Erie county, New York, have invented certain Improvements in Steam-Fn gines, of which the following is a specification:
The rst part of my invention relates to a new kind of condenser for steam-engines, and the second part to a feed-water heater in combination therewith.
Figure l is a sectionall elevation. Figs. 2 andi 3 represent the foot-valve on an enlarged sca e.
A Ais the exhaust-pipe; B, the blow-throu gh pipe; C, the condensing-chamber; D, a pipe connecting the condensing-chamber with the blow-through pipe; E, hot-well; F, a pipe connecting the blow-through pipe with the feed-water heater; G, feed-water heater; H, iltering-chamber within the heater; I, injection-pipe; J, overow-pipe; K, feed-water pipe to boiler; a, valve operated by the engine to close the passage to the condenser when blowing through; b, clack-valve to prevent the steam from passing into the condensing-chamber up the ypipe D while blowing through; c, a valve to trap the steam and water that is blown into the heater during the process of blowing through; el, foot-valve in blow-throu gh pipe openin g downward; e, strum or perforated diaphragm upon the top of the condensing-chamber; f, perforated bottom to the filtering-chamber. The foot-valve d is a grated rubber valve, as shown in detail on' larger scale in Figs. 2 and 3.
Operation.
For the greater part of the stroke of the engine the valve a is open and the exhaust steam passes freely into C, when it meets with the injection water coming in through I, is condensed, and falls with the Waterto the bottom of the condensing-chamber and through had accumulated in said pipe. The valve a remains closed but a short time--say, during the last one or two inches of the strokewhen it again opens, allowing the rest of the steam to pass into the condensing-chamber, as before, and this operation is continuously repeated. The valve b is closed by the pressure of the steam in B during the process of blowing through. The foot-valve d is kept closed by atmospheric pressure, except when blowing through. There is a constant vacuum in the condensing-chamber and a vacuum on the piston, and throughout the instrument, except during the time the valve a is closed, which is about equal to or less than the period of compression. The injection water is forced into the condensing-chamber by atmospheric pressure. QA portion ofthe water in the blowthrough pipe is forced by the steam into the heater along with some of the steam, and when the valve a opens the pressure of the steam closes the valve o so as to retain the steam and hot water within the heater, thus furnishing ,feed-water of the tempera-ture of about 2120.
The arrangement' of the ltering-chamber within the heater is no part of my invention.
VI am also aware that I am not the irst to propose sending a portion of the exhaust steam into a closed vessel to heat the feed-water. I only claim the use of this heater, in combination with the other parts of this invention, when the water is blown into the heater by the steam, as above described.
The particular proportions, position, and arrangement of the blowthrough pipe, exhaustpipe, and condensing-chamber may vary, according to circumstances. The condensingchamber may surround or contain the blowthrough pipe, instead of being placed by its side or above it.
The leading principle of this invention is a blow-through pipe and condensing-chamber with a passage between them, which is alternately opened and closed so as to allow the exhaust steam to either flow into the condensing-chamber to be condensed or to send it through the blow-through pipe to oarry'out the water of condensation, substantially as described.
What I claim as new, and desire to patent, blow-t11rough pipe B and condensingchmnber is C, when operating as described.
A condenser for steam-engines, composed SIMEON A. GOODWIN. 0f the b10wthrough pipe B and condensingchamber C, and operating substantially as de- Witnesses:
scribed. ABRAM TWICHELL,
2. The heater G, when combined with the JOHN HOLEsoUsE.
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