US965985A - Combined liquid and gas turbine. - Google Patents
Combined liquid and gas turbine. Download PDFInfo
- Publication number
- US965985A US965985A US35947707A US1907359477A US965985A US 965985 A US965985 A US 965985A US 35947707 A US35947707 A US 35947707A US 1907359477 A US1907359477 A US 1907359477A US 965985 A US965985 A US 965985A
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- gas
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- wheel
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C7/00—Features, components parts, details or accessories, not provided for in, or of interest apart form groups F02C1/00 - F02C6/00; Air intakes for jet-propulsion plants
- F02C7/12—Cooling of plants
- F02C7/14—Cooling of plants of fluids in the plant, e.g. lubricant or fuel
- F02C7/141—Cooling of plants of fluids in the plant, e.g. lubricant or fuel of working fluid
- F02C7/143—Cooling of plants of fluids in the plant, e.g. lubricant or fuel of working fluid before or between the compressor stages
- F02C7/1435—Cooling of plants of fluids in the plant, e.g. lubricant or fuel of working fluid before or between the compressor stages by water injection
Definitions
- My invention consists in an impulse wheel such as is ordinarily used in water wheels of the best or Pelton type provided with a pipe leading thereto terminating in a nozzle adjacent to one of the buckets in combination with means for admitting bubbles of as to the Water, in combination with means tor exploding said bubbles of gas within the water so that the propulsive force of the water discharged from the nozzle against the buckets is greater than it otherwise would be the whole in combination with mechanism for compressing and firing the bubbles of gas in the pipe.
- a cylindrical upper casing 15 having a clear opening in its bottom connecting with the water space just described.
- a shaft 18 having spokes 19 on each'of which is an impulse bucket 20 of the ordinary type used in any of the wellknown Water whee1s.
- a horizontal water pipe 22 connecting inside the device at '23 to the circular pipe 24 which passes through the wall 13 and Patented Aug. 2, 1910.
- this pipe 24 is connected at 26 to a tapering portion 27 terminatin in the nozzle tip 30 in proper position wit reference to the path of travel of the buckets 20 so that when water is discharged from this nozzle it strikes an adacent bucket in the ordinary manner.
- the pi e 24 may be straight and any number 0 them maybe used if desired.
- This nozzle 30 is regulated by means of a valve 31 screw threaded at 32 into a wall portion 33 of the nozzle wall 27. This valve 31 is operated by the hand wheel 34.
- the outer end of the pipe 22 is connected by a pipe 35 to any source of water under pressure.
- This pipe 35 is adapted to be closed off by a valve 36 operated by a hand wheel 37 located at some point in its length.
- the pipes 22 and 24 have entering them, within the Water space 11, an angular pipe 40 adapted to be closed by a plate valve 41 pivotally mounted at 42, as shown, near the lower end of said pipe 40.
- This valve 41 is adapted to swing up into the pocket 43 providcd for it.
- Running along the bottom of the base portion 10 is a passageway 45 having its forward end 46 entering the pipe 40 and adapted to be normally closed by the valve plate 41.
- the opposite or outer end 47 of the passageway 45 is connected to a gas pipe 48 controlled by a valve 49 operated by a handle 50.
- This gas pipe 48 is connected beyond the figure to a source of moderately compressed gas under a pulsatin pressure so that when the valve 50 and tie valve 41 are both opened gas is de'- livered in irregular quantities or bubbles from the opening 46 into the pipe 40 with the result that gas bubbles 52, 53, 54 and 55 travel into and around the pipe 24 heretofore described and ultimately pass out of the nozzle 30.
- bustion in the manner to be hereafter described may pass out through this pipe 66 and escape into the open air.
- a magneto machine or other spark producing mechanism 70 which is adapted to be operated by any suitable means so as to produce a continuous supply of electric sparks across the points of spark plugs properly connected thereto.
- I connect this magneto machine 70 to a spark plug 74 entering the pipe 24 adjacent to the angular nozzle 27 -30 so that when any bubble of gas reaches this spark plug 74 it is exploded by means of the spark passing across the terminals of the spark plug in the ordinary manner.
- each tube 100 is open to the tube 24 through the short screw threaded pipe 101.
- the opposite end of each Bourdon tube is connected by a link 110 to a roller 111 adapted to travel in a pathway 112 in a porcelain block 113 when the tube 100 is moved under the action of pressure of gas, water or the like in the tube 24 from the position of Fig. 2 toward a straight line position.
- This roller 111 is also adapted when the pressure in the tube 100 is released to travel back in a different passageway 115 over a plurality of contacts 116 each of which is as clearly shown in Fig. 2, connected by one of the wires 121, 122, 123 or 124, to one side of one of the four plugs to'which the particular Bourdon tube is attached.
- On the opposite side of this groove or passageway 115 is another contact 117 connected as shown by the wire 125 to the magneto 70.
- each of the spark plugs connected to the particular Bourdon tube are connected as shown by branch wires connecting with wire 126 to the opposite side of the magneto from that on which the block 117 is connected.
- the roller 111 is of such a size that as it passes down the groove 115 it makes electrical connection between one of the conducting plugs 116 and the plug 117 with the result that electricity from the magneto machine will pass through a contact 116 and contact 117-to a particular spark plug and thence back to the magneto machine during such time causing a spark to pass between the jspark points of that particular plug. It will also be seen that this operation causes said sparks to take place in the four plugs connected to each Bourdon tube in regular order; as 76, 77, 78 and last 79.
- valve 41 In the operation of the mechanism of my 37 and open the valve which it controls to admit water under pressure to pipe 22.
- the valve 41 being closed as shown is held closely by the water thus coming in through the pipe 22 and the water is forced around the pipe 24 and out of the nozzle 30 against the buckets 20 and causes the wheel to rotate in the ordinary manner. If the valve 64 is wide open so that the water coming from the wheel can escape from the base 10 we have a plain water wheel of the ordinary type and nothing else. ⁇ Vhen the wheel has once started in the manner described I turn the handle 50 and open the gas valve 49 and admit gas to the pipe 45.
- a Bourdon tube accessible to the pressure in the mixture of liquid and gas within said conducting means, a plurality of spark plugs along said conducting means, means for conducting a current of electricity to said spark plugs and mechanism connected to "said Bourdoii tube and to the wiring of said sparking plugs whereby an undue ressure in the conducting means causes sai Bourdon tube to operate the spark plug connected thereto in a predetermined manner.
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- Combustion & Propulsion (AREA)
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Description
G. E. BROGKHAUSEN.
COMBINED LIQUID AND GAS TURBINE.
APPLICATION FILED FEB. 26, 1907.
965,985. Patented Aug. 2, 1910.
i To all whom it may concern:
BROCKHAUSEN, OF CHICAGO, ILLINOIS.
COMBINED LIQUID AND GAS TURBINE.
Specification of Letters Patent.
Application filed February 26, 1907. Serial No. 359,477.
such a device which will be simple in construction and efficient in operation.
My invention consists in an impulse wheel such as is ordinarily used in water wheels of the best or Pelton type provided with a pipe leading thereto terminating in a nozzle adjacent to one of the buckets in combination with means for admitting bubbles of as to the Water, in combination with means tor exploding said bubbles of gas within the water so that the propulsive force of the water discharged from the nozzle against the buckets is greater than it otherwise would be the whole in combination with mechanism for compressing and firing the bubbles of gas in the pipe.
My invention also consists in details of construction which will be hereafter more fully described and claimed as the specification proceeds.
. ing from this base portion 10 and connected thereto by the wal s 13 and 14 is a cylindrical upper casing 15 having a clear opening in its bottom connecting with the water space just described. In the center of this upper casing 15 is journaled a shaft 18 having spokes 19 on each'of which is an impulse bucket 20 of the ordinary type used in any of the wellknown Water whee1s.
Entering one side wall of the base portion 10 is a horizontal water pipe 22 connecting inside the device at '23 to the circular pipe 24 which passes through the wall 13 and Patented Aug. 2, 1910.
thence around the outside of the casing 15. I
The opposite end of this pipe 24 is connected at 26 to a tapering portion 27 terminatin in the nozzle tip 30 in proper position wit reference to the path of travel of the buckets 20 so that when water is discharged from this nozzle it strikes an adacent bucket in the ordinary manner. The pi e 24 may be straight and any number 0 them maybe used if desired. This nozzle 30 is regulated by means of a valve 31 screw threaded at 32 into a wall portion 33 of the nozzle wall 27. This valve 31 is operated by the hand wheel 34.
The outer end of the pipe 22 is connected by a pipe 35 to any source of water under pressure. This pipe 35 is adapted to be closed off by a valve 36 operated by a hand wheel 37 located at some point in its length.
The pipes 22 and 24 have entering them, within the Water space 11, an angular pipe 40 adapted to be closed by a plate valve 41 pivotally mounted at 42, as shown, near the lower end of said pipe 40. This valve 41 is adapted to swing up into the pocket 43 providcd for it. Running along the bottom of the base portion 10 is a passageway 45 having its forward end 46 entering the pipe 40 and adapted to be normally closed by the valve plate 41. The opposite or outer end 47 of the passageway 45 is connected to a gas pipe 48 controlled by a valve 49 operated by a handle 50. This gas pipe 48 is connected beyond the figure to a source of moderately compressed gas under a pulsatin pressure so that when the valve 50 and tie valve 41 are both opened gas is de'- livered in irregular quantities or bubbles from the opening 46 into the pipe 40 with the result that gas bubbles 52, 53, 54 and 55 travel into and around the pipe 24 heretofore described and ultimately pass out of the nozzle 30.
Adjacent to the nozzle end 30, preferably in the tapering pipe end 27 I mount pivotally at 58 a check valve 59 adapted when in the position of Fig. 1 to leave the passageway through the pipe 24 and nozzle 30 unobstructed and adapted when there is any back pressure or vacuum in said pipe to be lifted to a position against the shoulder 60 in which it closes the nozzle entrance to the pipe 24. a
At some convenient place in the base portion 10 I place a discharge pipe 62 normally closed by a valve 63 control ed by a hand that gas which has been exhausted by com-.
bustion in the manner to be hereafter described may pass out through this pipe 66 and escape into the open air.
Convenient to the mechanism heretofore described I. place a magneto machine or other spark producing mechanism 70 which is adapted to be operated by any suitable means so as to produce a continuous supply of electric sparks across the points of spark plugs properly connected thereto. By means of the wire 71 and 72 I connect this magneto machine 70 to a spark plug 74 entering the pipe 24 adjacent to the angular nozzle 27 -30 so that when any bubble of gas reaches this spark plug 74 it is exploded by means of the spark passing across the terminals of the spark plug in the ordinary manner. As it is highly desirable that gas bubbles in the pipe 24 shall be compressed before being fired I provide mechanism-by means of which when the plug 74 fires a bubble of gas passing said plug and the reaction from said explosion compresses other bubbles of gas in the pipe 24 said compressed bubble or bubbles may also be successively fired. To do this I provide along the circumference of the pipe 24 and between the spark plug 74 and the wall 13 heretofore described quite a number of other spark plugs 76 to 95 inclusive. I divide these plugs 76 to 95 into groups of four and in the middle of each group I mount as is clearly illustrated in Fig. 2 a Bourdon tube 100. The various outside cases containing these tubes are designated by the numbers 102, 103, 104, 105 and 106. One end of each tube 100 is open to the tube 24 through the short screw threaded pipe 101. The opposite end of each Bourdon tube is connected by a link 110 to a roller 111 adapted to travel in a pathway 112 in a porcelain block 113 when the tube 100 is moved under the action of pressure of gas, water or the like in the tube 24 from the position of Fig. 2 toward a straight line position. This roller 111 is also adapted when the pressure in the tube 100 is released to travel back in a different passageway 115 over a plurality of contacts 116 each of which is as clearly shown in Fig. 2, connected by one of the wires 121, 122, 123 or 124, to one side of one of the four plugs to'which the particular Bourdon tube is attached. On the opposite side of this groove or passageway 115 is another contact 117 connected as shown by the wire 125 to the magneto 70.
The opposite sides of each of the spark plugs connected to the particular Bourdon tube are connected as shown by branch wires connecting with wire 126 to the opposite side of the magneto from that on which the block 117 is connected. The roller 111 is of such a size that as it passes down the groove 115 it makes electrical connection between one of the conducting plugs 116 and the plug 117 with the result that electricity from the magneto machine will pass through a contact 116 and contact 117-to a particular spark plug and thence back to the magneto machine during such time causing a spark to pass between the jspark points of that particular plug. It will also be seen that this operation causes said sparks to take place in the four plugs connected to each Bourdon tube in regular order; as 76, 77, 78 and last 79.
In the operation of the mechanism of my 37 and open the valve which it controls to admit water under pressure to pipe 22. The valve 41 being closed as shown is held closely by the water thus coming in through the pipe 22 and the water is forced around the pipe 24 and out of the nozzle 30 against the buckets 20 and causes the wheel to rotate in the ordinary manner. If the valve 64 is wide open so that the water coming from the wheel can escape from the base 10 we have a plain water wheel of the ordinary type and nothing else. \Vhen the wheel has once started in the manner described I turn the handle 50 and open the gas valve 49 and admit gas to the pipe 45. 'This gas lifts the valve 41 sufiiciently to allow somegas to enter the water within the pipe thereby .causing the escaped gas to form bubbles in pipe 40 and pass up the pipe 24 mixing with the water as shown. The admitting of gas under pressure into pipe 24 tends to form alternate layers of gas and water around pipe 24 this action being similar to that in the apparatus known as the Pohle air lift (see Patents 659,491, 661,624). During this time the magneto 70 has been running, producing frequent sparks across the spark plug 74. When now the first gas bubble reaches the spark plug 74 the spark passing across it explodes this particular bubble of gas with the result that it tends to force the,
water adjacent to it in two directions. The water in front of it, between it and the nozzle 30, is driven out of the nozzle with great force against the adjacent bucket 20 thereby accelerating the rotation of the wheel 19. The opposite reaction of the exploding gas tends to compress the water which is behind it coming in through the tube 24. As water is. practically noncompressible this reaction of the exploded gas bubble at 74 compresses the gas behind this point of explosion and at the same time tends to force the water or gas or the mixture of them into the various Bourdon tubes 100 inside the cases 103 to 55 opposite gage 102 and largely absorbed causes said wheel to rotate,
by it so that in practice the first explosion opposite 74 only affects this one gage. Aside from this I gradually increase the pressure on which the gages 102 to 100 successively operate so that in practice only one Bourdon tube is operated by an explosion of gas taking place in front of a plug connected to the tu e next toward the nozzle 30. As the force of the explosion of the first bubble of gas spends itself the roller 111 in gage 102 returns to normal position through the passageway 115 over the contacts 116 wit-h the result that the plugs 76, 77, 78 and 79 adjacent to it are caused to spark within the pipe 24. Any bubble or bubbles of gas which are in contact with an of these particular sparking plugs are exp oded with the result that practically all of the water in front of them is driven out through the nozzle 30 against the wheel with great force. The reaction of this explosion causes age 103 to operate to send sparks throu h plugs 80, 81, 82 and 83 thereby firing'bub les in frontof them and causin gage 104 to o erate and so on through all the gages. s soon as age 106 has fired its plu s all of the B0111- ontubes have returne to their normal position and spark plug 7a is the only one which continues to'make sparks,-the water comin in through the'pipe 22 again flows aroun the pipe 24,.gas is mixed with it as before and when the first bubble of gas reaches the plug 7 4 the operation is repeated. The complete evacuation of the tube.24 by the force of the gas and the refilling with the water the gas bubbles takes place in such a short time that the acceleration of the wheel 19 acquired by the explosions above described doesnot spenditself, before the pipe 24= is filled with water and the repetition of the operationis begun.
During the o eration of my device de; scribed the pro nets of combustion of the gas after they pass throu h the nozzle 30 escape through the pipe 66. v e
Other liquids than water may be used without departing from my invention and similarly difi'erent ases suitable to the different liquids may e used.
Having thus described my invention what I claim as new and desire to secure by Letters Patent, is:
1. In mechanism of the class described the combination of an impulse wheel, mechanism by means of which the working fluid means for admitting an explosive gas to said working from the machine mto the open air.
fluid before it o erates upon the wheel, means for ex lod ing a bubble of gas upon the working uid about too erate upon the wheel, and mechanism for tien'successively exploding other bubbles of gas at different distances from the point where the working fluid operates upon the wheel.
' 2. In mechanism of the class described the combination of an impulse wheel, a nozzle in operative relation thereto, a pipe so connecting said nozzle to a source of working liquid that there is working liquidwithin the pipe, means for u'hnitting bubbles of gas into the liquid in the pipe and. mechanism for exploding bubbles of gas in said liquid at a point adjacent to the nozzle.
3. In mechanisni of the class described the combination of an impulse wheel, a nozzle in operative relation thereto, a pipe so connecting said nozzle to a source of working liquid that there is working liquid within the pipe, means for admitting bubbles of gas into the liquid in the pipe, means for exploding a bubble of gasat a point adjacent to the nozzle and means set in motion by the explosion of said first bubble for successively exploding other bubbles of gas in said water at different distances from the nozzle.
4. In mechanism of the class described, the combination of an impulse wheel, a nozzle directed against the wheel, a pipe connecting said nozzle to a source of water under pressure, means for admitting a mixture of gas and water to said pipe, means for exploding a bubble of said gas at a point adjacent to said nozzle and means set in motion by the explosion of the first bubble for successively exploding other bubbles of gas at increasing distances from the nozzle.
5. In mechanism of the class described the combination of an impulse wheel, a nozzle directed against the wheel, means for conducting operating liquid to said nozzle, means for admitting liquid and a plurality of bubbles of gas to said conducting means, mechanism for exploding a bubble of gas at a point adjacent to the nozzle and means operated by the back pressure generated in the conducting means by the explosion of the first bubble for successively first compressing and then exploding other bubbles of gas in said water at increasing distances from the nozzle. 1
0. In mechanism of the class described the combination of a rotatable wheel having buckets a nozzle directed against the buckets on the wheel a pipe connectingsaid nozzle to a source of water under pressure means for admitting bubbles of as to said water and mechanism for explo ing said bubbles of gas at a oint adjacent to said nozzle.
7, In'mec anism ofthe' class described the combination of a suitable casin a rotatable wheel therein bucketsupon t e wheel a nozzle directed against the buckets a pipe for conducting water under pressure to said nozzle means for admitting gas to the water.
as it passes through said pipe means for exploding a bubble of gas in said ipe adjacent to said nozzle and means or successively exploding other bubbles of gas in said water at increasing distances from the nozzle.
8. In mechanism of the class described the combination of a suitable casing a rotatable wheel having buckets a nozzle directed toward the buckets, means to admit water to said nozzle, means for admitting gets under pressure to the water within said water admitting means, means for exploding bubbles of gas in said admitting means and means for readmitting water which has once passed through the nozzle to said water admitting means as and for the purposes described.
9. In mechanism of the class described in combination with a member for conducting a mixture of liquid and gas; a plurality of spark lugs along said member and mechanism e ectrically connected to said spark plugs normally inactive adapted to be operated by the mixture of liquid and gas within said conducting means when an undue change in pressure takes lace therein to fire said spark plugs in a pre etermin'ed order.
10. In mechanism of the class described, in combination with mechanism for conducting a mixture of liquid and gas, a Bourdon tube accessible to the pressure in the mixture of liquid and gas within said conducting means, a plurality of spark plugs along said conducting means, means for conducting a current of electricity to said spark plugs and mechanism connected to "said Bourdoii tube and to the wiring of said sparking plugs whereby an undue ressure in the conducting means causes sai Bourdon tube to operate the spark plug connected thereto in a predetermined manner.
11. In mechanism of the class described the combination with a pipe for conducting liquid, a plurality of spark plugs entering said conducting means, a Bourdon tube having one end entering said conducting means, a source of electrical energy having one terminal connected to each of said spark plugs, and the other end connected to one terminal of a .switchJ'means for connecting an independent adjacent terminal-of the switch to each spark plug, and a contact mechanism operated by the Bourdon tube adapted to leave the connection .between the spark plugs and the source of electrical energy open while pressure is increasin in the mixmg pf the hquid and gas within the conducting means and adapted to successively connect each plug with said source ofeleotrlcal energ as the previously increased pressure in t e pi begins to decrease with the result that said spark plugs are successively fired as described.
12. In mechanism of the class described the combination of an impulse wheel, a nozzle directed against the wheel, means for conducting operating liquid to said nozzle, means for admitting operating liquid and a plurality of bubbles of gas to said conductmg means, a spark plug entering said conducting means adjacent to the nozzle, a plurality of other spark plugs along said conducting means farther away from the nozzle, means for continuously sending sparks across the first spark plug, and mechanism connected to the second spark plugs, normally inactive, adapted when set in operation by pressure of liquid within said conducting means generated by the explosion of a portion of gas fired by the first spark plug, to fire said second spark plugs in predetermined order.
13. In a machine of the class described the combination of an impulse wheel, a nozzle in operative relation thereto, a receptacle for working liquid which has previously passed through the nozzle into contact with the wheel, a pipe connecting said nozzle to the liquid within said receptacle, means for admitting bubbles of explosive gas under pressure into said pipe below the level of liquid in said receptacle so that they tend to 'carry liquid from said receptacle through the pipe to said nozzle, and means for exploding a bubble of gas in said mixture of gas and liquid at a point adjacent to the nozzle.
In witness whereof, I have hereunto subscribed my name in the presence of two witnesses.
CARL E. BROCKHAUSEN. Witnesses:
Dwrorrr B. Cnnnvsn,
C. J. CHRISTOFFEL.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US35947707A US965985A (en) | 1907-02-26 | 1907-02-26 | Combined liquid and gas turbine. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US35947707A US965985A (en) | 1907-02-26 | 1907-02-26 | Combined liquid and gas turbine. |
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US965985A true US965985A (en) | 1910-08-02 |
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US35947707A Expired - Lifetime US965985A (en) | 1907-02-26 | 1907-02-26 | Combined liquid and gas turbine. |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4646515A (en) * | 1986-01-10 | 1987-03-03 | Guirguis Raafat H | Two-phase engine |
US4897995A (en) * | 1988-02-26 | 1990-02-06 | Guirguis Raafat H | Liquid turbojet engine |
-
1907
- 1907-02-26 US US35947707A patent/US965985A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4646515A (en) * | 1986-01-10 | 1987-03-03 | Guirguis Raafat H | Two-phase engine |
US4897995A (en) * | 1988-02-26 | 1990-02-06 | Guirguis Raafat H | Liquid turbojet engine |
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