US1617586A - Steam-power plant - Google Patents
Steam-power plant Download PDFInfo
- Publication number
- US1617586A US1617586A US592695A US59269522A US1617586A US 1617586 A US1617586 A US 1617586A US 592695 A US592695 A US 592695A US 59269522 A US59269522 A US 59269522A US 1617586 A US1617586 A US 1617586A
- Authority
- US
- United States
- Prior art keywords
- water
- drum
- pump
- steam
- boiler
- 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
Links
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B29/00—Steam boilers of forced-flow type
- F22B29/02—Steam boilers of forced-flow type of forced-circulation type
- F22B29/023—Steam boilers of forced-flow type of forced-circulation type without drums, i.e. without hot water storage in the boiler
Definitions
- the preheater coil discharges into the evaporator coil ejector, additional water being from a storage drum into whic the wet the dry steam from the drum superheater coil from which it engine.
- the storage tangentially, entering the is delivered to the" drum is located above the coils and'isnot 5 subjected to the heat of the fire,.and is-con nected to the evaporator coil sothat the through an picked up steam from the evaporator is discharged evaporator and preheater coils will be filled with water by gravity when not otherwise filled.
- the burner is turned on, some steam will be generated in the evaporator and be discharged into the drum where the moisture will be separated out by centrifugal action. -'lhe d steam will then p 1 1 5 T OFFICE.
- the quantity of water (liquid and steam) in the system is substantially constant and positively circulated so that there is always liquid and steam passing through the evaporator coils. It the quan-" tit of water in the system is suificient to keep water in the drum, it is evident that there can be no burning of the ova orator tubes or other injury to the boiler t ough failure of the water supply, since the preheater and evaporator coils will receive an adequate supply of water and the ,super heater coil will receive steam.
- the pump is located below the hot well and has intake and discharge valves 15, 16, the intake valve being [controlled by,the head of water the pipe' becomes depleted to the point where there would be danger of drawing air'into the pump when the waterfalls below a predetermined level therein.
- the pump will then draw in waterfrom the pipe 13 on its intake stroke, but since the valve 16 is held seated by the pressure from the boiler and the valve 15 is held open b the push rod 22, the water will be returne to the pipe 13.
- the pump 14 discharges through a pipe 23 leading to the jacket 24 of a thermostat 25 for controlling the supply of make-up water as will presently be described.
- the water leaves the jacket 24 through a pipe 26 leading to the outer bank of coils of the preheater.
- the preheater comprises the five outer banks of coils within the boiler shell or casing 27, the water entering the coldest part of the boiler and progressing through the coils toward the center or hottest part.
- the water from the preheater enters the outer coil of the evaporator 28 through an ejector 29 where additional water is added from the drum 30 through the pipe 31 and auxiliary pump 32;
- the auxiliary pump has intake and discharge valves 33 and 34 at one end while the other end is in open communication with-thedischarge from the pump 14.
- a free plunger 35 isengaged by a spring 36 e shock from the water delivered by the- 'ump 14'.
- the quantity of water entering the outer evaporator coil 28 is, under full load, several times as much as the fire can evaporate so that the circulation. of water throu h this coil is always proportionate to the loa The and the valve 50 closes.
- Heat is supplied to the boiler by a burner 41(preferably located on the top of the boiler an discharging its hot gases downward and radially outward over the coils, the gases leaving the boiler through a downwardly discharging flue 42. Fuel and air are sup plied to the burner through the conduit 43.
- the thermostat 25 is of the type utilizing a liquid of high boiling point and is surrounded by a steam jacket 44 within the jacket 24-and to which two pipes 45, 46 leading to the steam and water spaces of the drum 30 are connected.-
- the bulb of the thermostat 25 is connected by a loop 47 to one end of a Bourdon tube 48, the other end of which is connected to a lever 49 pivoted to a valve 50 controlling the suppl of makeup water from the tank 51 to the ot well 4.
- the water level in the drum 30 is 'igh enough so that the jacket 44 is filled with water and the bulb 25 is relatively cool, but if the water level falls so that steam enters the jacket 44 through connection 45 the liquid in the bulb evaporates which increases its pressure causing the Bourdon tube to straighten and lift the valve 50 which then sup lies more water to the system -to restore t e normal water level in the drum.
- the bulb 25 cools oil
- the boiler feed water is circulated through the jacket 24 so as to ra idly cool off the jacket 44 and bulb 25 as t e water levelrises in the drum.
- a steam power plant of the closed system type the combination of two sets of coils the one within the other, a connection between the coils whereby the'first coil dis'- charges into the seeond,'a drumvpositioned above said coils, a tangential centrifugal means in connection with'said drum for disise misses and separating the steam from the water,
- the combination of two sets of coils the one within the other, a connection between the coils whereby the first coil discharges into the second, a drum positioned above said coils into which the second coil discharges, means for supplying water to the first coil under pressure; a connection from the drum to the connection between the coils, and means in the connection from the drum actuated by the first mentioned means to supply water from the drum to the second coil.
- a steam power plant of the closed system type the combination of a boiler, a main constant supply pump for supplying water to the boiler, and an auxiliary pump actuated by impulses in the discharge from the first pump to increase the circulation through t e boiler.
- a boiler In a steam power plant of the closed system type, a boiler, a main constant su ply pump, a discharge connection from t e pump to the boiler, a second ump having a cylinder, a plunger slidab e therein, a discharge connection from the cylinder at one end of the plun er to the boiler, a connection from the cy 'nder at the other end of the plunger to the discharge connection from the first pump whereby the plunger will be moved in one direction by impulse or shock from the first pump, and means for mpving the plunger in the opposite direction.
- a boiler having a preheater, an evaporator and a superheater one within the other, a constant supply pump supplying water to the preheater, a connection from the preheater to the evaporator, an
- means 01- delivering water from the evaporator to the second pump, means for returning the water from the second pump to the evaporator, means for operating the second pump by the discharge from the first pump, and means for delivering steam from the evaporator to the superheater.
Description
Feb. 15, 192 7. 1,617,586
0. A. FRENCH STEAM POWER PLANT Filed Oct. 5, 1922 oooooooooooooooo oooooooooooooooo 0000000000000000 0oo0oo0ooooooooo mi 00 000000000000005 InvenJZar.
- Patented Feb. 15, 19 27.
STATES,
PATEN cnmns A. nausea, or oonuninus, onro.
swam-rowan PLANT.
Application filed October 6, 192-2. Serial No. 592,695.
acknowledged to be most desirable because of their case and simplicity of: control but have not gone into extensive use because of the relatively short life of the boiler and burner. The boilers heretofore used have usually failed by burning of the tubes due to failure of the water suppl or by the opening of the joints between t e tubes and headers caused by unequal expansion and frequent and large variations in temperatare.
in the plantand control system about to be described, l have endeavored to make the boiler of such form that it cannot be injured by unequal expansion and contraction; so that no joints are subjected to the" action oi the hot gases, and to have a-form permitting of the greatest safety, flexibility, eficiency and compactness. By using a closed system, in which water from the condenser is pumped back into the boiler as fast as steam is taken out, the water su ply in the boiler cannot change rapidly. li the condenser is of ample capacity water can be lost out of the system only slowly. Water control devices on previous automotive steam power plants have had to do their work very frequently and rapidly, as the water suppl in the boiler was usually rapidly deplete It is obviously much easier to make a reliable control device if it has an infrequent light duty to perform than would be the case if its duty was severe and frequent.- lnniy improved automotive steam power plant, I use a boiler without headers or tube heets but have preheater, evaporator and superheater coils or zones of fixed area. All 7 joints and connections are out of the path of the'flame from the-burner so that they are notexposed to either frequent or large variations in temperature, therefore, they will not break or leak. The preheater coil discharges into the evaporator coil ejector, additional water being from a storage drum into whic the wet the dry steam from the drum superheater coil from which it engine. The storage tangentially, entering the is delivered to the" drum is located above the coils and'isnot 5 subjected to the heat of the fire,.and is-con nected to the evaporator coil sothat the through an picked up steam from the evaporator is discharged evaporator and preheater coils will be filled with water by gravity when not otherwise filled. As soon as the burner is turned on, some steam will be generated in the evaporator and be discharged into the drum where the moisture will be separated out by centrifugal action. -'lhe d steam will then p 1 1 5 T OFFICE. I v
enter the superheater coi while pressure is being built up-iuthe system and before the superheater coil can be heated hot enough to injure it. The quantity of water (liquid and steam) in the system is substantially constant and positively circulated so that there is always liquid and steam passing through the evaporator coils. It the quan-" tit of water in the system is suificient to keep water in the drum, it is evident that there can be no burning of the ova orator tubes or other injury to the boiler t ough failure of the water supply, since the preheater and evaporator coils will receive an adequate supply of water and the ,super heater coil will receive steam. It then the supply of water fails for any reason as by leakage or other losses, it will be a parent by the lowering of the water love in thedrum. 1 have, thereiore, provided an auxiliary water supply or make-up water means controlled by the water level in the drum so that if the water inthe drum dropshelow a predetermined level, more water will automatically be added to the system to restore the level. I have also provided an improved means for pumping the water to and through the boiler which is controlled by the water supply, so that the pump cannot pasms out through the vent 8 while the water and oil collect in the chamberlO. The oil' floating on top of the water oil through the tube 11 while the water rises between the bullies 6, 7 and overflowsthe latter into the side .12 of the hot well, which is connectedto the pipe 13 leading to the in- 1 take of a pump 14-; The pump is located below the hot well and has intake and discharge valves 15, 16, the intake valve being [controlled by,the head of water the pipe' becomes depleted to the point where there would be danger of drawing air'into the pump when the waterfalls below a predetermined level therein. The pump will then draw in waterfrom the pipe 13 on its intake stroke, but since the valve 16 is held seated by the pressure from the boiler and the valve 15 is held open b the push rod 22, the water will be returne to the pipe 13.
Thls operation continues until sufiicient wa=- ter has accumulated in the hot well so that the pressure of the column on the diaphragm 18 forces it down against the spring 21 permitting the valve 15 to seat. The pump 14' i then discharges to the boiler.
The pump 14 discharges through a pipe 23 leading to the jacket 24 of a thermostat 25 for controlling the supply of make-up water as will presently be described. The water leaves the jacket 24 through a pipe 26 leading to the outer bank of coils of the preheater. The preheater comprises the five outer banks of coils within the boiler shell or casing 27, the water entering the coldest part of the boiler and progressing through the coils toward the center or hottest part. The water from the preheater enters the outer coil of the evaporator 28 through an ejector 29 where additional water is added from the drum 30 through the pipe 31 and auxiliary pump 32; The auxiliary pump has intake and discharge valves 33 and 34 at one end while the other end is in open communication with-thedischarge from the pump 14.
A free plunger 35 isengaged by a spring 36 e shock from the water delivered by the- 'ump 14'.
e stroke,
at one end and at the other-recelves t When the pump 14 is on its int the spring 36 cross the plunger 32 downward drawingin water through the valve 33. On the discharge stroke of the pump plunger 14, the shock of the water on the 35 .causes it to move upward'and discharge water-through the pipe 31". While I have shown both .the ejector 29 and auxiliary pump 32 for supplying water from the storage drum, it will be understood that each of these devices supplements the action of the other and that in many instances one or the other will be suflicient.
The quantity of water entering the outer evaporator coil 28 is, under full load, several times as much as the fire can evaporate so that the circulation. of water throu h this coil is always proportionate to the loa The and the valve 50 closes.
burner is controlled by boiler pressure and when there is only a small amount of water passingthrough the evaporator coils there is acorrespondingly light load on the boiler and the fire can only remain on a very short I the engine, the steam is xhausted to the con-- denser 2 where it is codr sed to be again circulated through the syszcm. Y
Heat is supplied to the boiler by a burner 41(preferably located on the top of the boiler an discharging its hot gases downward and radially outward over the coils, the gases leaving the boiler through a downwardly discharging flue 42. Fuel and air are sup plied to the burner through the conduit 43.
The thermostat 25 is of the type utilizing a liquid of high boiling point and is surrounded by a steam jacket 44 within the jacket 24-and to which two pipes 45, 46 leading to the steam and water spaces of the drum 30 are connected.- The bulb of the thermostat 25 is connected by a loop 47 to one end of a Bourdon tube 48, the other end of which is connected to a lever 49 pivoted to a valve 50 controlling the suppl of makeup water from the tank 51 to the ot well 4.
During normal 0 eration, the water level in the drum 30 is 'igh enough so that the jacket 44 is filled with water and the bulb 25 is relatively cool, but if the water level falls so that steam enters the jacket 44 through connection 45 the liquid in the bulb evaporates which increases its pressure causing the Bourdon tube to straighten and lift the valve 50 which then sup lies more water to the system -to restore t e normal water level in the drum. As soon as the water level is restored, the bulb 25 cools oil The boiler feed water is circulated through the jacket 24 so as to ra idly cool off the jacket 44 and bulb 25 as t e water levelrises in the drum.
Having thus described one form in which my invention. may be embodied, what I claim as new and'desire to secure by Letters Patent is:
l 1. In: a steam power plant of the closed system type, the combination of two sets of coils the one within the other, a connection between the coils whereby the'first coil dis'- charges into the seeond,'a drumvpositioned above said coils, a tangential centrifugal means in connection with'said drum for disise misses and separating the steam from the water,
means for supplying water to the first coil under pressure, a connection from the drum to the connection between the coils, and means in the connection from the drum actuated by the first mentioned means to supply water from the drum to the second coil. 2. In a steam power plant of the closed system type, the combination of two sets of coils the one within the other, a connection between the coils whereby the first coil discharges into the second, a drum positioned I above said coils, a tangential centrifugal means in connection with said drum and said second coil for discharging the contents from said second coil intosald drum and separating the steam from the water, means for supplying water to the first coil under pressure, and a connection from the drum to the connection between the coils.
3. In a steam power plant of the closed system type, the combination of two sets of coils the one within the other, a connection between the coils whereby the first coil discharges into the second, a drum positioned above said coils into which the second coil discharges, means for supplying water to the first coil under pressure; a connection from the drum to the connection between the coils, and means in the connection from the drum actuated by the first mentioned means to supply water from the drum to the second coil.
4. In a steam power plant-of the closed. system type, the combination of two sets of coils the one within the other, a connection between the coils whereby the first coil discharges into the second, an ejector in said connection, a drum into which the second coil discharges, a pump discharging water into the first coil under pressure, a 00111160 tion from the drum to the connection betwe nthe coils, a second'pu-mp in the connection from the drum, and means for actuating the second pump by impulses or shocks in the discharge from the first pump.
5. In a steam power plant of the closed system type, the combination of a boiler, a main constant supply pump for supplying water to the boiler, and an auxiliary pump actuated by impulses in the discharge from the first pump to increase the circulation through t e boiler.
6; In a steam power plant of the closed system type, a boiler, a main constant su ply pump, a discharge connection from t e pump to the boiler, a second ump having a cylinder, a plunger slidab e therein, a discharge connection from the cylinder at one end of the plun er to the boiler, a connection from the cy 'nder at the other end of the plunger to the discharge connection from the first pump whereby the plunger will be moved in one direction by impulse or shock from the first pump, and means for mpving the plunger in the opposite direction.
7. In a steam power plant of the closed system type, a boiler having a preheater, an evaporator and a superheater one within the other, a constant supply pump supplying water to the preheater, a connection from the preheater to the evaporator, an
ejector in said connection, a second pump,
means 01- delivering water from the evaporator to the second pump, means for returning the water from the second pump to the evaporator, means for operating the second pump by the discharge from the first pump, and means for delivering steam from the evaporator to the superheater.
Signed at Chicago, Illinois, this 30th day of September, 1922.
CHARLES A. FRENCH.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US592695A US1617586A (en) | 1922-10-06 | 1922-10-06 | Steam-power plant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US592695A US1617586A (en) | 1922-10-06 | 1922-10-06 | Steam-power plant |
Publications (1)
Publication Number | Publication Date |
---|---|
US1617586A true US1617586A (en) | 1927-02-15 |
Family
ID=24371699
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US592695A Expired - Lifetime US1617586A (en) | 1922-10-06 | 1922-10-06 | Steam-power plant |
Country Status (1)
Country | Link |
---|---|
US (1) | US1617586A (en) |
-
1922
- 1922-10-06 US US592695A patent/US1617586A/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4430962A (en) | Forced flow vapor generator plant | |
US3358450A (en) | Method and apparatus for steam turbine startup | |
US3009325A (en) | Once-through vapor generating and superheating unit | |
US2869517A (en) | Once through steam generating plant | |
US2020686A (en) | Waste heat economizer | |
US2743709A (en) | Equalizing the temperature of high pressure boiler drum walls | |
US1617586A (en) | Steam-power plant | |
US3370573A (en) | Start-up system for combined circulation steam generator | |
US3313111A (en) | Startup system for a once through steam generator including a startup balancing heatexchanger | |
US2431177A (en) | Vapor generating plant | |
US2257749A (en) | High speed steam power plant and method of operating said power plant | |
US2396032A (en) | Boiler | |
US1883293A (en) | Boiler with forced return circulation through furnace walls | |
US2343856A (en) | Hot water heating system | |
US1676264A (en) | Internal-combustion engine | |
US1731458A (en) | Steam power plant | |
US1703093A (en) | Evaporator and preheater system | |
US2276381A (en) | Hot water boiler | |
US3314237A (en) | Startup system for a once-through steam generator | |
US2291118A (en) | Steam generator | |
US1703228A (en) | Boiler | |
US1723302A (en) | Steam plant | |
US2205911A (en) | High pressure steam generator | |
US1925256A (en) | Steam generator | |
US2479664A (en) | Steam generation |