US1157998A - Air-lift-pump booster. - Google Patents

Air-lift-pump booster. Download PDF

Info

Publication number
US1157998A
US1157998A US81559414A US1914815594A US1157998A US 1157998 A US1157998 A US 1157998A US 81559414 A US81559414 A US 81559414A US 1914815594 A US1914815594 A US 1914815594A US 1157998 A US1157998 A US 1157998A
Authority
US
United States
Prior art keywords
air
pipe
chamber
water
shell
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
US81559414A
Inventor
Frank S Miller
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.)
HARRIS AIR PUMP Co
Original Assignee
HARRIS AIR PUMP Co
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 HARRIS AIR PUMP Co filed Critical HARRIS AIR PUMP Co
Priority to US81559414A priority Critical patent/US1157998A/en
Application granted granted Critical
Publication of US1157998A publication Critical patent/US1157998A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B47/00Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps
    • F04B47/02Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps the driving mechanisms being situated at ground level
    • F04B47/04Pumps or pumping installations specially adapted for raising fluids from great depths, e.g. well pumps the driving mechanisms being situated at ground level the driving means incorporating fluid means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04FPUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
    • F04F1/00Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped
    • F04F1/18Pumps using positively or negatively pressurised fluid medium acting directly on the liquid to be pumped the fluid medium being mixed with, or generated from the liquid to be pumped

Definitions

  • I provide a chamber which may be lower than the final level to which water is to be lifted, and place this chamber so that the pipe extending upward from the air lift pump in the well discharges into it preferably vertically, the chamber providing a space within which the mixed air and water from the well are sufliciently quiet to separate and this separation being made more complete by causing the discharge into the chamber to be against the under side of an umbrella located in such chamber above the water level therein.
  • This chamber is a closed chamber, and the pressure of the air which is thus separated from the water is used to force the water thus separated out of this chamber and if desired along a horizontal pipe and to a higher water level.
  • the amount of air within the chamber is controlled by the water level in such chamber to maintain such level substantially constant, there being an automatic valve which as the water falls is opened to allow the air to escape from such chamber, this air conveniently either passing to the atmosphere, to the intake side of the compressor which supplies the air for the air nozzle of the pump, or to another air nozzle.
  • Figure 1 is adiagrammatic view showing a system embodying my invention
  • Fig. 2 '1s a vertical sectional View through the booster.
  • the air compressor 10 supplies compressed air through a reservoir 9 and a pipe 11 to the air nozzle 12 which is at a sufiicient distance down in the well, and this air nozzle, which for the sake of the injector action I prefer to make in the form shown in my Patent No. 1,036,524, issued August 20, 1912, discharges air which mixes with the water in the Well to produce an emulsion which rises in the pipe 13.
  • This pipe 13 leads substantially straight upward into a booster shell or chamber 14, which is air and water tight and is conveniently located in a pit 14 just below the surface of the ground.
  • the pipe 13 extends only part way up into the booster shell 14, but above the water level therein, and is conveniently surmounted by an umbrella 15, the umbrella and the upper end of the pipe 13 conveniently being surrounded by a cylinder 16 open at both the upper and lower ends.
  • the umbrella and the shell 16 direct the water discharged from the pipe 13 toward the bottom of the shell 14, and allow this water to be separated from the air with which it is mixed.
  • a second pipe 20 projects up through the bottom of the shell 14, and its upper end is surrounded by'a hood or cylinder 21 spaced from the pipe 20 and closed at its upper end.
  • the cylinder 21 is open at its lower end, being supported above the floor of the shell 14 by legs 22, or in some other convenient manner.
  • the pipe 20 communicates with the space in the shell 14 by this open lower end of the cylinder 21, such end being below the water level in the shell 14.
  • the pipe 20 may be connected, preferably through a check valve 23 which prevents back How, with a suitable storage reservoir 24, shown as a' tank supported on a suitable framework above the level of the ground, the connection between the pipe 20 and the tank 24 including, if necessary, a horizontal pipe 25 which extends a considerable distance and a vertical pipe 26 which leads from the pipe 25 to the reservoir 24.
  • a suitable storage reservoir 24 shown as a' tank supported on a suitable framework above the level of the ground
  • a horizontal pipe 25 which extends a considerable distance
  • a vertical pipe 26 which leads from the pipe 25 to the reservoir 24.
  • I have used horizontal pipes 25 up to nearly a mile in length, and vertical pipes up to sixty or seventy feet high.
  • the pipe 30 may discharge to the atmosphere, as through the valve 31, or may be connected to a -nozzle for an air lift pump, either in the same or a difi'erent system, as through a valve 35 to a nozzle 36 at the base of the pipe :26, or may lead to the intake side of the compressor 10, asshown, as through the valve 37, thus in creasing the efficiency of such compressor. All three, or any one or two, of these discharge outlets for the air in the booster shell 1-1 may be used.
  • the compressed air discharged by the nozzle 12 mixes with the water in the well to form an emulsion which overflows the top of the pipe 18 into the shell or chamber 14. WVhen so discharged, this emulsion separates within the booster shell 14 into its constituents air and water, the water falling to the bottom and the air rising to the top of the shell 14. The separation is made more effective and complete by reason of the upward discharge of this overflowing air and water against the under side of the umbrella 15, which deflects the water downward and against the open ended cylinder 16 and provides an excellent opportunity for the air to escape from the water.
  • the pressure of this separated air on the upper surface of the water causes the latter to flow up through the bottom of the cylinder 21 and into the pipe 20, the entrance to the pipe 20 being either at the top thereof or through slots 38 with which said pipe is preferably provided within the cylinder 21.
  • the pressure of the air on the water is sufficiently great to force this water through the pipe 20 and the check valve 23 and through the horizontal pipe 25 and vertical pipe 26 into the tank 24:-
  • the pressure of the air within the booster shell let is automatically maintained sufliciently high to accomplish this, because the level of the Water within the shell 14: is controlled by the opposing action of the pressure of the air within such shell and the back pressure of the head of water from the tank 24:, such water level in the booster shell falling as the air pressure predominates.
  • the consequent falling of the float 33 opens the valve 31 to allow air to escape through the pipes 32 and 30, thus diminishing the air pressure within the shell 14: and allowing the water level in the booster shell to rise as the water overflows from the pipe 13. If the air pressure falls too greatly, the back pressure from the Water predominates, and the flow of water through the pipe 20 ceases until the water level within the booster shell ll rises sufficiently to cause the Heat 33 to close the valve 31 to permit the air pressure within the booster shell 11- to rise so that it predominates over the back pressure from the water head.
  • the water may'be forced horizontally for great distances, in a manner impossible hitherto with air lift pumps, and the ratio of the submergence of the air nozzle 12 below the water level in the well to the total lift of the water is diminished because it is only necessary that this ratio be maintained between the submergence and the lift of the water into the booster shell.
  • the water discharged into the pipe 25, and also into the reservoir 21 if the air nozzle 36 is not used, is substantially free from air.
  • a closed chamber a pipe leading from a well into such chamber and opening into said chamber above the liquid level therein, an air nozzle in such pipe below such chamber, a pipe leading from such chamber and opening into such chamber below the liquid level therein, a downwardly opening hood located in said chamber and having its open lower end below the liquid level therein, said first named pipe discharging upwardly into said cham ber and said last named pipe opening under said hood, andan automatic air valve controlling the outlet of air from and maintaining a pressure greater than atmosphere in said chamber.
  • a closed chamber a pipe leading from a well and discharging upwardly substantially vertically into such chamber, an air nozzle in such pipe below such chamber, a pipe leading from such chamber, a hood in such chamber over the end of said last named pipe, said hood having its lower end open below the liquid level in said chamber and having its upper end closed, a container which is connected to said last named pipe to receive the discharge therefrom, and an automatic air valve controlling the outlet of air from and main taining a pressure greater than atmosphere in said chamber.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Jet Pumps And Other Pumps (AREA)

Description

F. S. MILLER.
AIR LIFT PUMP BOOSTER.
APPLICATION FILED mmsr. 1914.
Patented. Oct. 26, 1915.
Wkmf
A TTOR/I/EV rare FRANK S. 1VIIL1Z-IEER, OF INDIANAPOLIS, INDIANA, ASSIGNOR TO HARRIS AIR PUMP COMPANY, OF INDIANAPOLIS, INDIANA, A CORPORATION OF INDIANA.
AIR-LIFT-PUMP BOOSTER.
ant
Application filed January 31, 1914. Serial No. 815,594.
To all whom it may concern:
Be it known that I, FRANK S. MILLER, a citizen of the United States, residing at Indianapolis, in the county of Marion and State of Indiana, have invented a new and useful Air-Lift-Pump Booster, of which the following is a specification.
In the operation of air lift pumps, it has heretofore been necessary in most systems that the flow of water caused by the air be vertical or nearly so, as difiiculty has always been experienced in case it was attempted to convey the mixed air and water horizontally. It has also been necessary, in order to obtain practical efficiency, that the air nozzle be submerged below the water level a distance bearing a large ratio to the total lift of the water.
It is the object of my present invention to i the submergence of the air nozzle below the water level to the total height through which the water is to be lifted may be lessened without diminishing the elliciency of the pump. In accomplishing this object, I provide a chamber which may be lower than the final level to which water is to be lifted, and place this chamber so that the pipe extending upward from the air lift pump in the well discharges into it preferably vertically, the chamber providing a space within which the mixed air and water from the well are sufliciently quiet to separate and this separation being made more complete by causing the discharge into the chamber to be against the under side of an umbrella located in such chamber above the water level therein. This chamber is a closed chamber, and the pressure of the air which is thus separated from the water is used to force the water thus separated out of this chamber and if desired along a horizontal pipe and to a higher water level. The amount of air within the chamber is controlled by the water level in such chamber to maintain such level substantially constant, there being an automatic valve which as the water falls is opened to allow the air to escape from such chamber, this air conveniently either passing to the atmosphere, to the intake side of the compressor which supplies the air for the air nozzle of the pump, or to another air nozzle.
The accompanying drawings illustrate my invention.
Figure 1 is adiagrammatic view showing a system embodying my invention; and Fig. 2 '1s a vertical sectional View through the booster.
The air compressor 10 supplies compressed air through a reservoir 9 and a pipe 11 to the air nozzle 12 which is at a sufiicient distance down in the well, and this air nozzle, which for the sake of the injector action I prefer to make in the form shown in my Patent No. 1,036,524, issued August 20, 1912, discharges air which mixes with the water in the Well to produce an emulsion which rises in the pipe 13. This pipe 13 leads substantially straight upward into a booster shell or chamber 14, which is air and water tight and is conveniently located in a pit 14 just below the surface of the ground. The pipe 13 extends only part way up into the booster shell 14, but above the water level therein, and is conveniently surmounted by an umbrella 15, the umbrella and the upper end of the pipe 13 conveniently being surrounded by a cylinder 16 open at both the upper and lower ends. The umbrella and the shell 16 direct the water discharged from the pipe 13 toward the bottom of the shell 14, and allow this water to be separated from the air with which it is mixed. A second pipe 20 projects up through the bottom of the shell 14, and its upper end is surrounded by'a hood or cylinder 21 spaced from the pipe 20 and closed at its upper end. The cylinder 21 is open at its lower end, being supported above the floor of the shell 14 by legs 22, or in some other convenient manner. The pipe 20 communicates with the space in the shell 14 by this open lower end of the cylinder 21, such end being below the water level in the shell 14. The pipe 20 may be connected, preferably through a check valve 23 which prevents back How, with a suitable storage reservoir 24, shown as a' tank supported on a suitable framework above the level of the ground, the connection between the pipe 20 and the tank 24 including, if necessary, a horizontal pipe 25 which extends a considerable distance and a vertical pipe 26 which leads from the pipe 25 to the reservoir 24. I have used horizontal pipes 25 up to nearly a mile in length, and vertical pipes up to sixty or seventy feet high. A third pipe 30 Patented Oct. so, was.
also extends into the shell 14, communicating through a valve 31 with a pipe 32 which opens near the top of and within the booster shell 14. The valve 31 isoperated by a float 33, controlled by the level of the water within the booster shell to open the valve 31 as such water level falls and to close it as such water level rises. The pipe 30 may discharge to the atmosphere, as through the valve 31, or may be connected to a -nozzle for an air lift pump, either in the same or a difi'erent system, as through a valve 35 to a nozzle 36 at the base of the pipe :26, or may lead to the intake side of the compressor 10, asshown, as through the valve 37, thus in creasing the efficiency of such compressor. All three, or any one or two, of these discharge outlets for the air in the booster shell 1-1 may be used.
In operation, the compressed air discharged by the nozzle 12 mixes with the water in the well to form an emulsion which overflows the top of the pipe 18 into the shell or chamber 14. WVhen so discharged, this emulsion separates within the booster shell 14 into its constituents air and water, the water falling to the bottom and the air rising to the top of the shell 14. The separation is made more effective and complete by reason of the upward discharge of this overflowing air and water against the under side of the umbrella 15, which deflects the water downward and against the open ended cylinder 16 and provides an excellent opportunity for the air to escape from the water. The pressure of this separated air on the upper surface of the water causes the latter to flow up through the bottom of the cylinder 21 and into the pipe 20, the entrance to the pipe 20 being either at the top thereof or through slots 38 with which said pipe is preferably provided within the cylinder 21. The pressure of the air on the water is sufficiently great to force this water through the pipe 20 and the check valve 23 and through the horizontal pipe 25 and vertical pipe 26 into the tank 24:- The pressure of the air within the booster shell let is automatically maintained sufliciently high to accomplish this, because the level of the Water within the shell 14: is controlled by the opposing action of the pressure of the air within such shell and the back pressure of the head of water from the tank 24:, such water level in the booster shell falling as the air pressure predominates. WVhen the water level in the booster shell 14 falls, the consequent falling of the float 33 opens the valve 31 to allow air to escape through the pipes 32 and 30, thus diminishing the air pressure within the shell 14: and allowing the water level in the booster shell to rise as the water overflows from the pipe 13. If the air pressure falls too greatly, the back pressure from the Water predominates, and the flow of water through the pipe 20 ceases until the water level within the booster shell ll rises sufficiently to cause the Heat 33 to close the valve 31 to permit the air pressure within the booster shell 11- to rise so that it predominates over the back pressure from the water head.
By the arrangement described, the water may'be forced horizontally for great distances, in a manner impossible hitherto with air lift pumps, and the ratio of the submergence of the air nozzle 12 below the water level in the well to the total lift of the water is diminished because it is only necessary that this ratio be maintained between the submergence and the lift of the water into the booster shell. Moreover, the water discharged into the pipe 25, and also into the reservoir 21 if the air nozzle 36 is not used, is substantially free from air.
I claim as my invention:
1. In combination, a closed chamber. a pipe leading from a well into such chamber and opening into said chamber above the liquid level therein, an air nozzle in such pipe below such chamber, a pipe leading from such chamber and opening into such chamber below the liquid level therein, a downwardly opening hood located in said chamber and having its open lower end below the liquid level therein, said first named pipe discharging upwardly into said cham ber and said last named pipe opening under said hood, andan automatic air valve controlling the outlet of air from and maintaining a pressure greater than atmosphere in said chamber.
2. In combination, a closed chamber, a pipe leading from a well and discharging upwardly substantially vertically into such chamber, an air nozzle in such pipe below such chamber, a pipe leading from such chamber, a hood in such chamber over the end of said last named pipe, said hood having its lower end open below the liquid level in said chamber and having its upper end closed, a container which is connected to said last named pipe to receive the discharge therefrom, and an automatic air valve controlling the outlet of air from and main taining a pressure greater than atmosphere in said chamber.
3. In combination, a closed chamber, a pipe leading from a well into such chamber, an air nozzle in such pipe below such chamber, a. pipe leading from such chamber. a hood in said chamber over the end of said last named pipe, said hood having its lower end open below the liquid level in said chamber and having its upper end closed, and an automatic air valve controlling the outlet of air from and maintaining a pressure greater than atmosphere in said chamher.
1. In combination, a closed chamber, a
pipe leading from a well into such chamber, an air nozzle in such pipe below such chamber, a pipe leading from such chamber and opening into such chamber below the liquid level therein, a container which is connected to said last named pipe, said container being higher than said chamber, an automatic 'air valve controlling the outlet of air from such chamber, an air compressor for supplying air to said air nozzle, and an air nozzle in the connection between said chamher and said container, said air valve dischargin both to the said last named nozzle and to t e inlet side of said compressor.
In witness whereof, I, have hereunto set 15 my hand at Indianapolis, Indiana, this twenty-first day of January, A. D. one thousand nine hundred and fourteen.
FRANK S. MILLER.
Witnesses:
FRANK A. FAHLE, G. B. SGHLEY.
US81559414A 1914-01-31 1914-01-31 Air-lift-pump booster. Expired - Lifetime US1157998A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US81559414A US1157998A (en) 1914-01-31 1914-01-31 Air-lift-pump booster.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US81559414A US1157998A (en) 1914-01-31 1914-01-31 Air-lift-pump booster.

Publications (1)

Publication Number Publication Date
US1157998A true US1157998A (en) 1915-10-26

Family

ID=3226048

Family Applications (1)

Application Number Title Priority Date Filing Date
US81559414A Expired - Lifetime US1157998A (en) 1914-01-31 1914-01-31 Air-lift-pump booster.

Country Status (1)

Country Link
US (1) US1157998A (en)

Similar Documents

Publication Publication Date Title
JPS58202333A (en) Method and device for avoiding blow-off of water seal of equal-pressure air storage device for gas turbine generating plant
US2962863A (en) Device for degassing pressure fluids of hydraulic power plants
US1157998A (en) Air-lift-pump booster.
US1971441A (en) Priming system for centrifugal pumps
US4615844A (en) Water distribution system
US1530078A (en) Oil and water separating means
US631461A (en) Distillatory column.
US1419273A (en) Pumping system
US898055A (en) Electric battery.
US1569105A (en) Deactivator
US2879975A (en) Cooling water circulating apparatus
USRE14479E (en) Fbakk s
US827341A (en) Liquid-raising apparatus.
US1570259A (en) Air booster pump
US1623083A (en) Vacuum-producing apparatus
US652559A (en) Air-pump.
US493123A (en) Condenser
US2033744A (en) Centrifugal pump primer
US2275501A (en) Priming system for centrifugal pumps
US1607248A (en) Sewage-pumping apparatus
US550544A (en) Filter
US859213A (en) Apparatus for compressing air or other elastic fluid for the production of motive power.
US974717A (en) Turpentine-separator.
US968661A (en) Automatic water-elevator.
US1757299A (en) of cleveland