US2162746A - Apparatus for generating steam - Google Patents

Apparatus for generating steam Download PDF

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US2162746A
US2162746A US73892A US7389236A US2162746A US 2162746 A US2162746 A US 2162746A US 73892 A US73892 A US 73892A US 7389236 A US7389236 A US 7389236A US 2162746 A US2162746 A US 2162746A
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boiler
water
steam
pipe
conduit
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US73892A
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Randel Bo Folke
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B1/00Methods of steam generation characterised by form of heating method
    • F22B1/02Methods of steam generation characterised by form of heating method by exploitation of the heat content of hot heat carriers
    • F22B1/08Methods of steam generation characterised by form of heating method by exploitation of the heat content of hot heat carriers the heat carrier being steam
    • F22B1/12Methods of steam generation characterised by form of heating method by exploitation of the heat content of hot heat carriers the heat carrier being steam produced by an indirect cyclic process
    • F22B1/126Steam generators of the Schmidt-Hartmann type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K3/00Plants characterised by the use of steam or heat accumulators, or intermediate steam heaters, therein
    • F01K3/18Plants characterised by the use of steam or heat accumulators, or intermediate steam heaters, therein having heaters
    • F01K3/181Plants characterised by the use of steam or heat accumulators, or intermediate steam heaters, therein having heaters using nuclear heat

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  • This invention relates to the generation of steam, and it has for its principal object the provision of an apparatus for generating steam by a fluid heating medium that is vaporized at a 5 point remote from the boiler.
  • Another object of the invention is the provision of an apparatus-in which the boiler parts, wherein the steam is generated, are not subjected to the deteriorating action of the hot gases of a furnace.
  • Still another object of the invention is the provision of an apparatus of the character described, wherein an. intimate contact between the steam generating space and the heating space is obtained.
  • a further object is the provision of a steam generating apparatus wherein the water in the boiler is heated by a different fluid which is vaporized by a heat source in a primary generator located apart therefrom.
  • a still further object of the invention is the provision of a steam generating apparatus wherein the water is circulated with such rapidity as to render it possible to employ salt or hard water without the formation of scale orother deposits, or other injury to the contiguous parts.
  • Another object of theinvention is the provision of an apparatus of the type referred to wherein the feed water is preheated by the waste flue gases.
  • a. steam generating apparatus constructed and assembled in accord ance with the present invention. is shown as comprising a primary heater or furnace in having a vertical portion H into which hot gases are introduced froman oil burner or other heat producing 1936, Serial No. 73,892
  • the tube l'i extends longitudinally through a boiler tube l8 which contains the water to be converted into steam and which communicates at its lower end with a pump 49 driven by a motor through a pipe 2
  • the boiler tube I8 may be one long single tube or a H plurality of tubes connected in parallel.
  • the mercury or other medium in the coil I4 is vaporized by the heat from the hot gases in the furnace l I and passes through the pipe l5 into the tube I! through which it passes downwardly giving up its heat to the water in the boiler [8.
  • the condensed mercury flows back to the coil l4 throughthe pipe IS.
  • a counterflow of the mercury and heating gases is obtained by this arrangement, the mercury flowing upwardly through the coil 14 and the hot gases flowing downwardly through the furnace I I, thus imparting to the vaporized mercury passing to the tube I7 its maximum temperature.
  • the steam generated in the boiler I8 flows through the pipe 22 into the separator 23 which extracts any moisture of condensation therefrom and returns it to the lower end of the boiler l8 through the pipe I4, pump l9 and pipe 2
  • the flow of mercury and the flow of water are in opposite directions, the vaporized mercury flowing downwardly through the tube I T and the water flowing upwardly through the boiler It thus imparting to the steam passing to the separator 23 its maximum temperature.
  • the dry steam passes through a pipe 25 to a turbine, reciprocating engine or other apparatus 26, where useful work is done.
  • an expansion element, or other suitable means 27, may be inserted in the pipe 25 to lower the pressure of the steam Sllfilciently to produce superheated steam.
  • the steam discharging from the turbine 26 passes through a pipe 28 to a condenser 29 from which the condensate passes through a pipe 30 to a hot well 3
  • the arrangement provides for the water being circulated through the system with such rapidity that the chance for the formation of scale or the accumulation of deposits in the boiler is very materially reduced. Also, it will be noted that the flame or hot gases do not impinge upon the tube or tubes of the steam boiler that are inaccessible, subject to high pressure, and are hard to keep clean, thus eliminating deterioration from this cause. Salt water may therefore be used, but in this event certain purging of the water should be made, either periodically or continuously, so as to remove the concentrated water.
  • such purging is effected by permitting the concentrated water in the pipe 24 to escape from the system through a pipe 38 which in the interest of economy of heat units extends through a heat exchanger 39.
  • the escape of this condensate water is controlled by a valve 40 provided in the pipe 38.
  • a new supply of water equal in volume to that drained off through the pipe 38 is drawn by a pump 4
  • This preheated water is then forced into the lower portion of the boiler l8 through a pipe 45 communicating with the pipe 31.
  • a boiler constructed and operated in the manner described is suitable especially for high pressure work. Assuming a temperature of 680 F. of the mercury and a 100 per cent heat transfer, the pressure in the water boiler will be approximately 2700 lbs. At the same time the pressure in the mercury boiler or coil M will only be about atmospheric.
  • the heating medium is vaporized, and that this vapor is then passed over to the boiler to condense and transfer its heat to water. It is, however, not necessary to vaporize the heating medium.
  • This medium may be a fluid which remains in liquid state in both the heater and the boiler, circulating as a liquid and not as avapor.
  • a pump may be inserted either in the pipe l or in the pipe It so as to cause very rapid circulation of the medium.
  • the object of this arrangement is, first, some liquids as for instance a solution of salt in water will have considerably higher temperature in the liquid state than the vapor.
  • a solution of calcium chloride in water will vaporize at, say, atmospheric pressure under a temperature considerably over 212 F. but the vapor produced will be only 212 F. in temperature no matter how high is the temperature of the solution. In this case it would thus be preferable to circulate the liquid and not the vapor.
  • a second object would be that the hot gases will touch tubes or parts filled with liquid and not vapor thus lengthening the life of the same and a third object would be that heat will pass faster from a liquid to a liquid than a vapor to a liquid.
  • a system for generating steam comprising a conduit through which heated gases are adaptedto flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being effected by the differential temperatures of said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; and means located in said conduit for preheating the water supplied to said boiler.
  • a system for generating steam comprising a conduit through which heated gases are adapted to flow, a boiler for containing asupply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said pas.- sageway being effected by the differential temperatures of said medium existing at points within said conduit and'said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; means for withdrawing concentrated water from said separating means; means for supplying to said boiler a
  • a system for generating steam comprising a conduit through which heated gases are adept ed to flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being efiected by the differential temperaturesof said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; means for withdrawing concentrated water from said separating means; means for supplying to said boiler a volume of replacement water equal to
  • a system for generating steam comprising a conduit through which heated gases are adapted to flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being efiected by the difierential temperatures of said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam, a pump for returning the water of condensation to said boiler;
  • said separating means said boiler a volume of replacement water equal to that withdrawn from said separating means; means for preheating said replacement water; a pump for supplying water to said boiler; and means located in said conduit for preheating the water supplied to said boiler by said pump.

Description

B. F. RANDEL 2,162,746
APPARATUS FOR GENERATING STEAM June 20, 1939.
Filed April 11, 1936 INVENTOR go FoLKE RANvEL W 4 M ATTORNEY Patented June 20, 1939 UNITED STATES PATENT OFFICE Application April 11,
4 Claims.
(Granted under the act of amended April 30,
This invention relates to the generation of steam, and it has for its principal object the provision of an apparatus for generating steam by a fluid heating medium that is vaporized at a 5 point remote from the boiler.
' Another object of the invention is the provision of an apparatus-in which the boiler parts, wherein the steam is generated, are not subjected to the deteriorating action of the hot gases of a furnace.
Still another object of the invention is the provision of an apparatus of the character described, wherein an. intimate contact between the steam generating space and the heating space is obtained.
A further object is the provision of a steam generating apparatus wherein the water in the boiler is heated by a different fluid which is vaporized by a heat source in a primary generator located apart therefrom.
'0 A still further object of the invention is the provision of a steam generating apparatus wherein the water is circulated with such rapidity as to render it possible to employ salt or hard water without the formation of scale orother deposits, or other injury to the contiguous parts.
Another object of theinvention is the provision of an apparatus of the type referred to wherein the feed water is preheated by the waste flue gases.
With these and other objects in view, as well as other advantages that may be incident to the use of the improvements, the invention consists in the parts and combinations thereof hereinafter set forth-and. claimed, and-with the understanding that the several-necessary elements constituting the same may be varied in proportion and arrangement without departing from the nature and scope of the invention, as defined in the appended claims.
In order to make the invention more clearly understood, there are-shown in the accompanying drawing,- means for carrying the invention into practical use, without limiting the improvements in their useful application to the particular construction, which, for the purpose of explanation, have been made the subject of illustration.
The single figure of the accompanying drawing is a. diagrammatic view of an apparatus embodying my invention.
Referring to the drawing, a. steam generating apparatus constructed and assembled in accord ance with the present invention. is shown as comprising a primary heater or furnace in having a vertical portion H into which hot gases are introduced froman oil burner or other heat producing 1936, Serial No. 73,892
March 3, 1883, as 1928; 370 0. G. 757) means l2, and a horizontal portion l3 through which the waste flue gases are exhausted. A heating coil I 4 containing a liquid having high vapor temperature and low vapor pressure characteristics, such as mercury, is disposed within the portion H of the furnace l0 and communicates at its upper and lower ends through pipes l5 and l 6, respectively, with the upper and lower ends of a tube l1. Thus, a closed circulation of the primary heating medium is obtained. The tube l'i extends longitudinally through a boiler tube l8 which contains the water to be converted into steam and which communicates at its lower end with a pump 49 driven by a motor through a pipe 2|, and at its upper end through a pipe 22 with a steam separator 23, the lower portion of which communicates with the pump l9 through a pipe 24. Thus, a closed circulation of water to be transformed into steam is also obtained. The boiler tube I8 may be one long single tube or a H plurality of tubes connected in parallel. The mercury or other medium in the coil I4 is vaporized by the heat from the hot gases in the furnace l I and passes through the pipe l5 into the tube I! through which it passes downwardly giving up its heat to the water in the boiler [8. The condensed mercury flows back to the coil l4 throughthe pipe IS. A counterflow of the mercury and heating gases is obtained by this arrangement, the mercury flowing upwardly through the coil 14 and the hot gases flowing downwardly through the furnace I I, thus imparting to the vaporized mercury passing to the tube I7 its maximum temperature.
The steam generated in the boiler I8 flows through the pipe 22 into the separator 23 which extracts any moisture of condensation therefrom and returns it to the lower end of the boiler l8 through the pipe I4, pump l9 and pipe 2|. It will be noted that the flow of mercury and the flow of water are in opposite directions, the vaporized mercury flowing downwardly through the tube I T and the water flowing upwardly through the boiler It thus imparting to the steam passing to the separator 23 its maximum temperature.
From the separator 23 the dry steam passes through a pipe 25 to a turbine, reciprocating engine or other apparatus 26, where useful work is done. If desired, an expansion element, or other suitable means 27, may be inserted in the pipe 25 to lower the pressure of the steam Sllfilciently to produce superheated steam. The steam discharging from the turbine 26 passes through a pipe 28 to a condenser 29 from which the condensate passes through a pipe 30 to a hot well 3| where it collects. From the well 3| the water passes through a pipe 32 to a pump 33 driven by a motor 34, which forces it through a pipe 35 into one end of a coil 36 disposed within the portion l3 of the furnace H! where it is preheated by the waste flue gases. The preheated water then flows through a pipe 31 into the lower end of the boiler Hi.
It will be apparent from the foregoing that the arrangement provides for the water being circulated through the system with such rapidity that the chance for the formation of scale or the accumulation of deposits in the boiler is very materially reduced. Also, it will be noted that the flame or hot gases do not impinge upon the tube or tubes of the steam boiler that are inaccessible, subject to high pressure, and are hard to keep clean, thus eliminating deterioration from this cause. Salt water may therefore be used, but in this event certain purging of the water should be made, either periodically or continuously, so as to remove the concentrated water.
In the present instance such purging is effected by permitting the concentrated water in the pipe 24 to escape from the system through a pipe 38 which in the interest of economy of heat units extends through a heat exchanger 39. The escape of this condensate water is controlled by a valve 40 provided in the pipe 38.
A new supply of water equal in volume to that drained off through the pipe 38 is drawn by a pump 4| driven by a motor 42, through a pipe 43 communicating with a suitable source, and is forced thereby through a pipe 44 into the heat exchanger 39, where it is preheated by the heated water escaping through the pipe 38. This preheated water is then forced into the lower portion of the boiler l8 through a pipe 45 communicating with the pipe 31.
A boiler constructed and operated in the manner described is suitable especially for high pressure work. Assuming a temperature of 680 F. of the mercury and a 100 per cent heat transfer, the pressure in the water boiler will be approximately 2700 lbs. At the same time the pressure in the mercury boiler or coil M will only be about atmospheric.
It will be understood that the drawing is only schematic and that the several parts constituting the invention may be varied in construction, proportions and arrangement of the parts by those skilled in the art, without departing from the nature and scope of the invention as defined in the appended claims.
In the above description of the invention, it is stated that the heating medium is vaporized, and that this vapor is then passed over to the boiler to condense and transfer its heat to water. It is, however, not necessary to vaporize the heating medium. This medium may be a fluid which remains in liquid state in both the heater and the boiler, circulating as a liquid and not as avapor. In this arrangement a pump may be inserted either in the pipe l or in the pipe It so as to cause very rapid circulation of the medium.
The object of this arrangement is, first, some liquids as for instance a solution of salt in water will have considerably higher temperature in the liquid state than the vapor. A solution of calcium chloride in water will vaporize at, say, atmospheric pressure under a temperature considerably over 212 F. but the vapor produced will be only 212 F. in temperature no matter how high is the temperature of the solution. In this case it would thus be preferable to circulate the liquid and not the vapor.
A second object would be that the hot gases will touch tubes or parts filled with liquid and not vapor thus lengthening the life of the same and a third object would be that heat will pass faster from a liquid to a liquid than a vapor to a liquid. 1
The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without'the payment of any royalties thereon or therefor.
I claim:
1. A system for generating steam comprising a conduit through which heated gases are adaptedto flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being effected by the differential temperatures of said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; and means located in said conduit for preheating the water supplied to said boiler.
' 2. A system for generating steam comprising a conduit through which heated gases are adapted to flow, a boiler for containing asupply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said pas.- sageway being effected by the differential temperatures of said medium existing at points within said conduit and'said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; means for withdrawing concentrated water from said separating means; means for supplying to said boiler a vol-' ume of replacement water equal to that withdrawn from said separating means; and means located in said conduit for preheating the water supplied to said boiler.
3. A system for generating steam comprising a conduit through which heated gases are adept ed to flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being efiected by the differential temperaturesof said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam and for returning the same to said boiler; means for withdrawing concentrated water from said separating means; means for supplying to said boiler a volume of replacement water equal to that withdrawn from said separating means; means for preheating said replacement water; and means located in said conduit for preheating the water supplied to said boiler.
4. A system for generating steam comprising a conduit through which heated gases are adapted to flow, a boiler for containing a supply of water, a continuous passageway extending through said conduit and through said boiler and in heat exchanging relation therewith for containing a vaporizable heating medium having a high vapor temperature and a low vapor pressure, said heating medium being adapted to flow through that portion of said passageway located in said conduit in a direction opposite to and parallel with the direction of flow of the heated gases therein to absorb heat therefrom and be vaporized thereby, thence through that portion of said passageway located in said boiler to transfer its heat to the water therein to generate steam therefrom, and thence back through said conduit, the circulation of said heating medium through said passageway being efiected by the difierential temperatures of said medium existing at points within said conduit and said boiler, means communicating with said boiler for separating moisture of condensation from said steam, a pump for returning the water of condensation to said boiler;
said separating means; said boiler a volume of replacement water equal to that withdrawn from said separating means; means for preheating said replacement water; a pump for supplying water to said boiler; and means located in said conduit for preheating the water supplied to said boiler by said pump.
BO FOLKE RANDEL.
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2593963A (en) * 1950-01-11 1952-04-22 Gen Electric Binary cycle power plant having a high melting point tertiary fluid for indirect heating
US2621481A (en) * 1946-09-25 1952-12-16 Parsons C A & Co Ltd Closed cycle air turbine power plant having direct and indirect heat exchangers
US3147744A (en) * 1959-07-27 1964-09-08 Gen Motors Corp Thermal power plant
US3314400A (en) * 1963-07-30 1967-04-18 Commissariat Energie Atomique Evaporating and depolymerizing device
US4086758A (en) * 1975-09-12 1978-05-02 Stal-Laval Turbin Ab Combined steam and gas turbine plant and method of operation
US5979549A (en) * 1997-10-29 1999-11-09 Meeks; Thomas Method and apparatus for viscosity reduction of clogging hydrocarbons in oil well

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2621481A (en) * 1946-09-25 1952-12-16 Parsons C A & Co Ltd Closed cycle air turbine power plant having direct and indirect heat exchangers
US2593963A (en) * 1950-01-11 1952-04-22 Gen Electric Binary cycle power plant having a high melting point tertiary fluid for indirect heating
US3147744A (en) * 1959-07-27 1964-09-08 Gen Motors Corp Thermal power plant
US3314400A (en) * 1963-07-30 1967-04-18 Commissariat Energie Atomique Evaporating and depolymerizing device
US4086758A (en) * 1975-09-12 1978-05-02 Stal-Laval Turbin Ab Combined steam and gas turbine plant and method of operation
US5979549A (en) * 1997-10-29 1999-11-09 Meeks; Thomas Method and apparatus for viscosity reduction of clogging hydrocarbons in oil well
US6129148A (en) * 1997-10-29 2000-10-10 Meeks; Thomas Method for viscosity reduction of clogging hydrocarbons in oil well

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