US1470461A - Means for vaporizing liquid fuel - Google Patents

Means for vaporizing liquid fuel Download PDF

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US1470461A
US1470461A US435261A US43526121A US1470461A US 1470461 A US1470461 A US 1470461A US 435261 A US435261 A US 435261A US 43526121 A US43526121 A US 43526121A US 1470461 A US1470461 A US 1470461A
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tank
liquid fuel
fuel
pipe
delivery
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M21/00Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form
    • F02M21/08Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for non-gaseous fuels
    • F02M21/10Apparatus for supplying engines with non-liquid fuels, e.g. gaseous fuels stored in liquid form for non-gaseous fuels for fuels with low melting point, e.g. apparatus having heating means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/10Internal combustion engine [ICE] based vehicles
    • Y02T10/30Use of alternative fuels, e.g. biofuels

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  • This invention relates to a means for/vaporizing a liquid fuel for delivery to an internal combustion engine, ,whereby7 a more effective distribution of the fuel is attained through the air with which it is associated for combustion.
  • Fig. 1 is a side elevation generally illustrating the arrangement of the several parts of the apparatus.
  • Fig. 21 s an enlarged detail in vertical section of the end of the fuel delivery pipe within the oil reservoir.
  • Fig. 3 is an enlarged detail in vertical section of the mixing chamber and the fuel and air delivery thereto.
  • the device comprises the combination with the intake and exhaust manifolds 2 and 3 of an engine, of a fuel tank 4 wherein a liquid hydrocarbon is maintained under a fluid pressure of approximately pounds per square inch. This pressure is maintained by connection 0f the upper part of the tank 4 with a tank 5 which preferably is a relatively smaller separate compartment of the tank 4, within which tank 5 air or a combustible gas, such as hydrogen,
  • a reducing valve ⁇ 6 that will maintain the pressure in the tank 4 substantially constant under liuctuations of the higher pressure in the tank 5.
  • a pipe 7 delivers the fuel through a vaporizing chamber 9a to a mixing chamber 9, which pipe 7 passes in a coil 8 through the exhaust sixty 3 of the engine or any the exhaust manifold.
  • the air chamber 16 under normal conditions remains closed so that normally air is excluded from the expansion chamber 9.
  • the fluid pressure on the surface of the fuel in the tank 4 forcibly delivers it through the pipe 7 and its coil 8 to the expansion' chamber 9a--9, the amount so delivered being regulated by the control valve 10, and the fuel is heated to a relatively high temperature by its passage through the coil 8 in the exhaust of the engine.
  • the pressure under which the fuel is maintained is suiiicient to prevent vaporization of the liquid fuel in the pipe 7 under the high temperature it is exposed to, and when it finds its exit into the vaporizing chamber 9a the sudden release and free expansion of the heated liquid fuel causes it to disperse as an attenuated vapour,
  • the subjection of the liquid fuel to fluid pressure within the tank 4 hasl a further advantage in thatsthe fuel in its liquid state absorbs a substantial proportion of the gas which is in contact with it and by which the pressure is imposed.
  • the pipe from the tank 5 may be carried down into the liquid in the tank 4, as shownby the dot and dash lines in Fig. If this gaseous iiuid is only ordinary air, it will on release assist the'dispersion in the expansion chamber, but, if, as is intended, the gaseous fluid stored within the tank 5 is a combustible gas, such as hydrogen, the absorption of that gas by the liquid is of further advantage in that after. delivery to the engine cylinders, it will facilitate 1gnition of the explosive mixture not only by virtue of its greater readiness to ignite but in the fact that it distributes the ignition throughout the volume of the charge.
  • a means for vaporizing liquid fuel for delivery to an internal combustion engine comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is. connected to the manifold adjacent the air inlet thereto, a tank for liquid fuel, a pipe connecting the lower part of the tank to the other end of the expansion chamber, means for heating the pipe, a valve controlling delivery from the pipe into the expansion chamber and means for imposin super-atmospheric elastic pressure on the I(liquid fuel in the tank sufficient to prevent volatilization of the liquid fuel in the pipe under the temperature to which it is exposed.
  • a means for vaporizing liquid fuel for delivery to an internal combustion engine comprising the combination with the intake manifold of the engine, an expansion chamber one end of which is in communication withthe intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to one end of the expansion chamber, means for exposing the pipe to the heat of the exhaust from the engine,la valve controlling delivery from the pipe into the expansion chamber, and means for imposing a supergaseous pressure on the liquid fuel in the tank sufficient to prevent volatilization of it in the pipe under the temperature to which it is exposed.
  • means comprising the combination with the intake manifold of the engine, of an expansion chamber, one end of which is in communication with the intake manifold ad-v jacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the other end of the expansion chamber, a valve controlling the liquid fuel delivery into the expansion chamber, and means for imposing the liquid fuel in the tank to a gas under super-atmospheric pressure suicient to prevent volatilization of the fuel in the pipe under the temperature to which it is exposed.
  • a means for vaporizing liquid fuel for delivery to an internal combustion engine comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is in communication with the intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the outer end of the expansion chamber, said pipe passing through the exhaust of the englne, a valve'oontrolling delivery from the fuel pipe into the expansion chamber, and means for exposing the liquid in the tank to a combustible gas under super-atmospheric pressure.
  • a means for vaporizing gaseous fuel for delivery to an internal combustion engine comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is 1n communication with the ⁇ intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the outer end of the expansion chamber, said pipe passing through the eX- haust of the engine, a valve controlling delivery from the fuel pipe into the expansion chamber, and means for exposing the liquid in thetank to a combustible gas under superatmospheric pressure sufficient to convey vaporizationof the liquid Lfanderl'in t e pipe at the heat it is exposed to.
  • Means for vaporizing a liquid fuel for delivery to an internal combustion engine comprising an expansion chamber from which air is normally excluded, one, end of which chamber is in communication with the intake' of the engine, and means for delivering heated liquid fuel throu h a restricted aperture into the other end o the expansion chamber.
  • Means for vaporizing a liquid fuel for delivery ⁇ to an internal combustion engine comprising an expansion chainber from whichair is excluded, one end of which chamber is in communication with the intake of the engine, and means for delivering heated liquid fuel through a restricted aperture into the other end Aof the expansion chamber under a super-atmospheric pressure that will prevent volatilization before delivery at the temperature to which it is exposed.
  • Means for vaporizing a liquid fuel for delivery to an internal combustion engine comprising the combination with 'the intake of the engine, of an expansion chamber one end of which is in communication with the engine intake, a liquid fuel tank, a duct connecting the lower part of the tank to the other end of the ⁇ expansion chamber, a valve controllin through the duct, means for heating the fuel in the delivery duct, and means for imposing a super-atmospheric pressure on the liquid fuel in the tank sufficient to prevent o utilization of it in the duct at the temperature to which it is exposed.
  • Means for vaporizing a liquid fuel for delivery to an internal combustion engine comprising the combination with the intake of the engine, an expansion chamber one end of which is in communication therewith, a liquid fuel tank, a pipe deliver- ,ing fuel from the lower part of the tank through a restricted aperture into the other end of the expansion chamber, said pipe exposed to the heat ofthe exhaust from the f engine, a valve controlling delivery from the ipe into the expansion chamber, and means or passin a ⁇ gas under super-atmospheric pressure t rough the body of fuel in the tank and means for retaining the pre ure withln the tank suiiicient to prevent v latilization of the liquid fuel in the delivery pipe to the expansion chamber.
  • a means for vaporizing liquid fuel for deliveryv to an internal combustion engine said means com rising the combination with the intake of t een ine, of an expansion chamber, one end of w ich is in communication with the intake adjacent the air inlet delivery livery from the duct tothe expansion chamber, and means for passing a soluble combustible gas through the fuel in the tank at a super-atmos heric pressure sufficient to pre- ⁇ vent volatilization of the fuel in the duct under the temperaturev to which it is exposed.
  • a means for vaporizing liquid fuel for delivery to an internal combustion engine comprising the combination with the intake of the engine, of an expansion chamber one end of which is in communication with the intake, a tank for liquid fuel, a pipe delivering fuel from the lower part of the tank through a restricted aperture into the other end 'of the expansion chamber, mleans for exposing the pipe to the heat of the engine exhaust, a valve con-- trolling delivery of the fuel into the expansion chamber, and means for imposin a super-atmospheric pressure on the liquid fuel in the tank suilcient to prevent volatilization of it in the pipe at the temperature to which it is exposed, and means adl gine, said means comprising an expansion chamber, one end of which is in communication with the intake of the engine adjacent the air inlet thereto, a liquid fuel tank, a pipe delivering the fuel from the lower part of the tank .through a sprayin nozzle into the other end of the expansion c amber, a valve controllin .delivery through the
  • a means for vaporizin liquid fuel for delivery to an internal com ustion engine comprising in combination, an expansion and mixin chamber separated by a partition in whic is an axial aperture, one end of which chamber is in communication with the intake of the engine, means for admittingv air into this compartment of the chamber, and means for delivering heated liquid. fuel through a restricted aperture in the other end of the other compartment at a su er-atmospheric pressure, so that the fuel wil not volatilize in the pipe.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Output Control And Ontrol Of Special Type Engine (AREA)

Description

Patented Oct. 9, 1923.
UNITED STATES JAMES M. MACLEAN, 0F VANCOUVER, BRITISH COLUMBIA, CANADA.
MEANSgFOB VAPORIZIN'G LIQUID FUEL.
Application led January .5, 1921. Serial No. 435,261.
l To all 'whom z't may concern:
Be it known that I, JAMES M. vBhoutan, citizen of the Dominion of Canada, residing at Vancouver, inthe Province of British Columbia, Canada, have invented certain new and useful Improvements in Means for Vaporizing Liquid Fuel, of which the follow- 1n is a specification.
This invention relates to a means for/vaporizing a liquid fuel for delivery to an internal combustion engine, ,whereby7 a more effective distribution of the fuel is attained through the air with which it is associated for combustion.
It further comprises the association of a combustible gas with the liquid fuel before delivery of it to the engine cylinders, whereby the ignition is more effectively distributed throughout the volume of the explosive mixture.
The invention is particularly described in the following specification, reference being made to the drawings by which it is accompanied, in which:
Fig. 1 is a side elevation generally illustrating the arrangement of the several parts of the apparatus.
Fig. 21s an enlarged detail in vertical section of the end of the fuel delivery pipe within the oil reservoir.
Fig. 3 is an enlarged detail in vertical section of the mixing chamber and the fuel and air delivery thereto.
The device comprises the combination with the intake and exhaust manifolds 2 and 3 of an engine, of a fuel tank 4 wherein a liquid hydrocarbon is maintained under a fluid pressure of approximately pounds per square inch. This pressure is maintained by connection 0f the upper part of the tank 4 with a tank 5 which preferably is a relatively smaller separate compartment of the tank 4, within which tank 5 air or a combustible gas, such as hydrogen,
is maintained at a relatively higher pressure, say two hundred and fifty pounds per square inch.
In the connection between the tanks 5 and 4 is a reducing valve`6 that will maintain the pressure in the tank 4 substantially constant under liuctuations of the higher pressure in the tank 5. From the lower part of the fuel tank 4 a pipe 7 delivers the fuel through a vaporizing chamber 9a to a mixing chamber 9, which pipe 7 passes in a coil 8 through the exhaust sixty 3 of the engine or any the exhaust manifold.
' The lower end of the pipe 7 within the tank 4 is outwardly flared, as at 17, and has convenient part of supports 18 to maintain its loweryedge-clear valve 11 is introduced in the pipe 7 between the tank and the coil, which valve should also be operable from lthe position of the driver, and between this stop valve 11 and the tank 4 is a connection to a pressuregauge 12. a i
The expansion chamber 98-9 into the lower end of which the pipe 7 delivers through the control valve 10, is medially contracted as at 13, and the upper end is connected at 14 to the intake manifold 2 of the engine adjacent its'air inlet 15.' In the mixing chamber 9 is an air valve 16 under `the drivers control admitting air by suction. The air chamber 16 under normal conditions remains closed so that normally air is excluded from the expansion chamber 9.
When the engine is running the fluid pressure on the surface of the fuel in the tank 4 forcibly delivers it through the pipe 7 and its coil 8 to the expansion' chamber 9a--9, the amount so delivered being regulated by the control valve 10, and the fuel is heated to a relatively high temperature by its passage through the coil 8 in the exhaust of the engine. The pressure under which the fuel is maintained is suiiicient to prevent vaporization of the liquid fuel in the pipe 7 under the high temperature it is exposed to, and when it finds its exit into the vaporizing chamber 9a the sudden release and free expansion of the heated liquid fuel causes it to disperse as an attenuated vapour,
l which action is again repeated to a somewhat less extent `as it passes through the restricted aperture 13 intolthe mixing chamber 9`. This vaporous condition is favourable to thorough admixture of it with the air indrawn at 16 before it is delivered at 14 into the intake manifold 2.
This maintenance of the liquid fuel under pressure, suiicient to prevent its volatilization, while it is being heated, is an essential feature of the invention, as it insures thorough volatilization and dispersion of the vapour through the air it is associated with for combustion. I
The subjection of the liquid fuel to fluid pressure within the tank 4 hasl a further advantage in thatsthe fuel in its liquid state absorbs a substantial proportion of the gas which is in contact with it and by which the pressure is imposed. To furtherthis object the pipe from the tank 5 may be carried down into the liquid in the tank 4, as shownby the dot and dash lines in Fig. If this gaseous iiuid is only ordinary air, it will on release assist the'dispersion in the expansion chamber, but, if, as is intended, the gaseous fluid stored within the tank 5 is a combustible gas, such as hydrogen, the absorption of that gas by the liquid is of further advantage in that after. delivery to the engine cylinders, it will facilitate 1gnition of the explosive mixture not only by virtue of its greater readiness to ignite but in the fact that it distributes the ignition throughout the volume of the charge.
I do not desire to be confined to the exact construction and arrangement of the parts as hereinbefore described and illustrated, as the same is only illustrative of the application of the essential features of the inven tion. These essential features are the subjection of the liquid fuel as such to an amount of heat favourable to volatilization, and at the same time to a gaseous pressure sufficient to prevent volatilization during subjection to the heat: The control of the delivery of the fuel into where it is mixed with the air for combustion, whereby I am enabled to maintain the required pressure in the deliver pipe and insure the forcible eX- pression o the heatedliquidfuel whereby it is dispersed in a spray that immediately volatilizes and mixes with the air necessary for combustion: And further the means by which the liquid fuel is impregnated with a combustible gas, such as hydrogen, to insure a more effective and general ignition of -the charge.
Having now particularly described my invention, I hereby declare that what I claim as new and desire to be protected in by Letters Patent, is: l
1. A means for vaporizing liquid fuel for delivery to an internal combustion engine, said means comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is. connected to the manifold adjacent the air inlet thereto, a tank for liquid fuel, a pipe connecting the lower part of the tank to the other end of the expansion chamber, means for heating the pipe, a valve controlling delivery from the pipe into the expansion chamber and means for imposin super-atmospheric elastic pressure on the I(liquid fuel in the tank sufficient to prevent volatilization of the liquid fuel in the pipe under the temperature to which it is exposed.
2. A means for vaporizing liquid fuel for delivery to an internal combustion engine, said means comprising the combination with the intake manifold of the engine, an expansion chamber one end of which is in communication withthe intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to one end of the expansion chamber, means for exposing the pipe to the heat of the exhaust from the engine,la valve controlling delivery from the pipe into the expansion chamber, and means for imposing a supergaseous pressure on the liquid fuel in the tank sufficient to prevent volatilization of it in the pipe under the temperature to which it is exposed.
3. A means for vaporizing liquid fuel for delivery to an internal combustion engine,
said. means comprising the combination with the intake manifold of the engine, of an expansion chamber, one end of which is in communication with the intake manifold ad-v jacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the other end of the expansion chamber, a valve controlling the liquid fuel delivery into the expansion chamber, and means for imposing the liquid fuel in the tank to a gas under super-atmospheric pressure suicient to prevent volatilization of the fuel in the pipe under the temperature to which it is exposed.
4. A means for vaporizing liquid fuel for delivery to an internal combustion engine, said means comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is in communication with the intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the outer end of the expansion chamber, said pipe passing through the exhaust of the englne, a valve'oontrolling delivery from the fuel pipe into the expansion chamber, and means for exposing the liquid in the tank to a combustible gas under super-atmospheric pressure.
5. A means for vaporizing gaseous fuel for delivery to an internal combustion engine, said means comprising the combination with the intake manifold of the engine, of an expansion chamber one end of which is 1n communication with the `intake manifold adjacent the air inlet, a tank for liquid fuel, a pipe connecting the lower part of the tank to the outer end of the expansion chamber, said pipe passing through the eX- haust of the engine, a valve controlling delivery from the fuel pipe into the expansion chamber, and means for exposing the liquid in thetank to a combustible gas under superatmospheric pressure sufficient to revenu vaporizationof the liquid Lfiilel'in t e pipe at the heat it is exposed to.
6. Means for vaporizing a liquid fuel for delivery to an internal combustion engine, said means comprising an expansion chamber from which air is normally excluded, one, end of which chamber is in communication with the intake' of the engine, and means for delivering heated liquid fuel throu h a restricted aperture into the other end o the expansion chamber.
7. Means for vaporizing a liquid fuel for delivery `to an internal combustion engine, said means comprising an expansion chainber from whichair is excluded, one end of which chamber is in communication with the intake of the engine, and means for delivering heated liquid fuel through a restricted aperture into the other end Aof the expansion chamber under a super-atmospheric pressure that will prevent volatilization before delivery at the temperature to which it is exposed.
8. Means for vaporizing a liquid fuel for delivery to an internal combustion engine, said means comprising the combination with 'the intake of the engine, of an expansion chamber one end of which is in communication with the engine intake, a liquid fuel tank, a duct connecting the lower part of the tank to the other end of the \expansion chamber, a valve controllin through the duct, means for heating the fuel in the delivery duct, and means for imposing a super-atmospheric pressure on the liquid fuel in the tank sufficient to prevent o utilization of it in the duct at the temperature to which it is exposed.
9. Means for vaporizing a liquid fuel for delivery to an internal combustion engine, said means comprising the combination with the intake of the engine, an expansion chamber one end of which is in communication therewith, a liquid fuel tank, a pipe deliver- ,ing fuel from the lower part of the tank through a restricted aperture into the other end of the expansion chamber, said pipe exposed to the heat ofthe exhaust from the f engine, a valve controlling delivery from the ipe into the expansion chamber, and means or passin a` gas under super-atmospheric pressure t rough the body of fuel in the tank and means for retaining the pre ure withln the tank suiiicient to prevent v latilization of the liquid fuel in the delivery pipe to the expansion chamber.
10. A means for vaporizing liquid fuel for deliveryv to an internal combustion engine, said means com rising the combination with the intake of t een ine, of an expansion chamber, one end of w ich is in communication with the intake adjacent the air inlet delivery livery from the duct tothe expansion chamber, and means for passing a soluble combustible gas through the fuel in the tank at a super-atmos heric pressure sufficient to pre- `vent volatilization of the fuel in the duct under the temperaturev to which it is exposed.
l1. A means for vaporizing liquid fuel for delivery to an internal combustion engine, said means comprising the combination with the intake of the engine, of an expansion chamber one end of which is in communication with the intake, a tank for liquid fuel, a pipe delivering fuel from the lower part of the tank through a restricted aperture into the other end 'of the expansion chamber, mleans for exposing the pipe to the heat of the engine exhaust,a valve con-- trolling delivery of the fuel into the expansion chamber, and means for imposin a super-atmospheric pressure on the liquid fuel in the tank suilcient to prevent volatilization of it in the pipe at the temperature to which it is exposed, and means adl gine, said means comprising an expansion chamber, one end of which is in communication with the intake of the engine adjacent the air inlet thereto, a liquid fuel tank, a pipe delivering the fuel from the lower part of the tank .through a sprayin nozzle into the other end of the expansion c amber, a valve controllin .delivery through the nozzle, means for eliverin gas under su er-atmosp eric pressure through the liquid in the tank,` and means for retaining a super-atmospheric pressure in the tank sufficient to prevent volatilization of the fuel in the delivery pipe.
13. A means for vaporizin liquid fuel for delivery to an internal com ustion engine, said means comprising in combination, an expansion and mixin chamber separated by a partition in whic is an axial aperture, one end of which chamber is in communication with the intake of the engine, means for admittingv air into this compartment of the chamber, and means for delivering heated liquid. fuel through a restricted aperture in the other end of the other compartment at a su er-atmospheric pressure, so that the fuel wil not volatilize in the pipe.
In testimony whereof I ailix my si ature.
`JAMES M. MAGL AN.
a combustible l
US435261A 1921-01-05 1921-01-05 Means for vaporizing liquid fuel Expired - Lifetime US1470461A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2613658A (en) * 1946-01-15 1952-10-14 Carter Carburetor Corp Charge forming device
US3974802A (en) * 1973-08-17 1976-08-17 Lundquist Hendrik W Internal combustion engine
US4399079A (en) * 1979-04-04 1983-08-16 Jacob H. Grayson Method and apparatus for generating vapor of a volatile liquid fuel and operating an internal combustion engine therewith
US4455986A (en) * 1983-01-06 1984-06-26 Finken Elmer G Engine fuel supply system

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2613658A (en) * 1946-01-15 1952-10-14 Carter Carburetor Corp Charge forming device
US3974802A (en) * 1973-08-17 1976-08-17 Lundquist Hendrik W Internal combustion engine
US4399079A (en) * 1979-04-04 1983-08-16 Jacob H. Grayson Method and apparatus for generating vapor of a volatile liquid fuel and operating an internal combustion engine therewith
US4455986A (en) * 1983-01-06 1984-06-26 Finken Elmer G Engine fuel supply system

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