WO2003001057A1 - Chambre de conversion de pression de graviton - Google Patents

Chambre de conversion de pression de graviton Download PDF

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Publication number
WO2003001057A1
WO2003001057A1 PCT/US2002/007614 US0207614W WO03001057A1 WO 2003001057 A1 WO2003001057 A1 WO 2003001057A1 US 0207614 W US0207614 W US 0207614W WO 03001057 A1 WO03001057 A1 WO 03001057A1
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Prior art keywords
graviton
chamber
pressure
fluid
reservoir
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PCT/US2002/007614
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English (en)
Inventor
Dale R. Bervig
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Turvitron Energy Systems, Llc
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Publication of WO2003001057A1 publication Critical patent/WO2003001057A1/fr

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B17/00Other machines or engines
    • F03B17/02Other machines or engines using hydrostatic thrust
    • 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
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy

Definitions

  • the present invention relates generally to an apparatus for producing energy. More particularly, the present invention relates to a device for efficiently converting stored graviton pressure (produced by the naturally occurring graviton/mass interaction process) into a usable energy form such as motion or electricity. 2. DESCRIPTION OF THE PRIOR ART
  • the first two forces listed are familiar in every day life.
  • the electromagnetic force is responsible for such phenomena as light and radio waves, while the gravitational force is responsible for the phenomenon of gravity, which is observed on a daily basis.
  • the weak nuclear force operates within the nuclei of atoms. It is responsible for types of radioactivity known as beta decay.
  • the strong nuclear force while also operating within the nuclei of atoms, is not responsible for decay, but rather holds atomic nuclei together. Each of these forces is carried by a corresponding particle or, in the case of the weak nuclear force, particles.
  • the electromagnetic force is carried by the photon, the strong nuclear force by the gluon, and the weak nuclear force by W and Z particles.
  • the gravitational force is carried by the graviton.
  • Superstring theory proposes that elementary particles exist in a ten-dimensional space-time and vibrate in each of these ten dimensions. Different vibrational states of these strings correspond to different elementary particles, much as different vibrational states of a guitar string correspond to different musical notes. For example, photons, electrons, and gravitons are all really strings, each with its own vibrational pattern. Exchanging point-like elementary particles for strings may not seem like a substantial change in civilization's view of the universe, but the effects are dramatic.
  • the present device is able to test certain predictions made by Superstring theory. In the process, the device is able to produce usable energy from the stored graviton pressure produced by the graviton/mass interaction process.
  • U.S. Patent No. 6,160,336, issued to Baker, Jr. et al. discloses a peak power energy storage device and gravitational wave generator.
  • the device consists of a large scale flywheel supported by a fluid bearing. During off-peak periods, the flywheel is caused to rotate, and maintain rotation, at a predetermined speed. When needed, the rotational movement of the flywheel is used to produce energy.
  • the device also purports to generate gravitational waves during the slow-down of the flywheel in the energy production stage. Whether the device does or does not do so is irrelevant with respect to the present invention and therefore will not be considered here.
  • U.S. Patent No. 4,095,429 issued to Morey, discloses a solar gravity engine.
  • the device utilizes the difference in temperatures and pressures at vertical heights in the atmosphere to create an evaporating and condensing system that can be used to produce electrical or other power.
  • the device must be large enough that there exists a substantial difference between the external ambient temperature at the evaporator area (which is, for example, at ground level) and the condensing area (which exists that some vertical height in the atmosphere). Construction of the device may be facilitated by building the device adjacent to some other vertically extending element, such as a mountain.
  • U.S. Patent No. 4,100,743 issued to Trumbull et al., discloses a gravity engine.
  • elements such as spheroids
  • elements are accelerated upwardly, against the force of gravity, by the expansion of a gas or fluid medium within an expansion chamber.
  • these spheroids are forced upward, they acquire potential energy.
  • An energy conversion means such as a wheel, is adapted to receive the spheroids and convert at least a portion of the potential energy into another form of energy, while directing the spheroids back into the expansion chamber. The cycle then repeats.
  • the present invention provides a device for generating electricity from stored graviton pressure.
  • the device directs fluid containing graviton pressure, stored at a depth, through a graviton pressure conversion chamber. As the fluid flows through the graviton pressure conversion chamber, the pressure produced as a result of the interaction of graviton particles with mass particles is converted into motion. This motion is used to turn a turbine operatively connected to an electrical generator.
  • the present invention further provides a method for converting stored graviton pressure into electricity.
  • the method is accomplished by allowing fluid containing graviton pressure, stored at a depth, to flow through a graviton pressure conversion chamber.
  • the pressure produced as a result of the interaction of graviton particles with mass particles is converted into motion.
  • the motion produced is used to turn a turbine operatively connected to an electrical generator. . . .
  • the present invention further provides a device for testing certain predictions of Superstring theory, namely, that a connection exists between the electron and the graviton, and that the umverse is composed of multiple spatial dimensions as opposed to the three spatial dimensions commonly observed in everyday life.
  • the device provides a means of pumping fluid to a height such that the photon pressure contained at a depth within the fluid is 14 pounds per square inch or greater.
  • a graviton pressure conversion chamber is provided, through which the fluid is able to flow.
  • a vacuum system is provided such that atmospheric pressure can be removed from the system. The flow of the fluid through the graviton pressure conversion chamber can be observed at various atmospheric pressures, and changes in fluid flow as the pressure changes can also be observed.
  • FIG. 1 is a schematic view of the TurvitronTM test system. Magnified views a) and b) illustrate the classical flow condition and full flow condition, respectively, of fluid flowing through the graviton pressure conversion chamber.
  • FIG. 2 is a schematic illustration depicting the movement of a unit of fluid through the graviton pressure conversion chamber and the forces at work upon the unit of fluid.
  • FIG. 2a illustrates the movement of a unit of fluid through the chamber
  • Figure 2b illustrates the forces at work on a unit of fluid passing through the graviton pressure conversion chamber according to classical theory, which does not take into account the stored graviton pressure energy contained within the unit of fluid
  • Figure 2c illustrates the forces at work on a unit of fluid passing through the graviton pressure conversion chamber according to the true theory, which takes into account the stored graviton pressure energy contained within the unit of fluid.
  • FIG. 3 is a schematic illustration of one embodiment of the TurvitronTM power system.
  • FIG 4. is a magnified schematic illustration of the graviton pressure conversion chamber of the TurvitronTM power system of Figure 3.
  • FIG. 5 is a schematic illustration of an alternative embodiment of the TurvitronTM power system.
  • FIG. 6 is a magnified schematic illustration of the graviton pressure conversion chamber of the TurvitronTM power system of Figure 5.
  • Figure 7 is a graph summarizing the operation of the TurvitronTM power system.
  • Figure 7a illustrates the operation of the power system according to classical theory
  • Figure 7b illustrates the operation of the power system according to the true theory, which takes into account the energy contribution of the graviton.
  • FIG. 8 is a graph illustrating the energy ratio curves for the TurvitronTM power system. 5.
  • Quantum physicists have pointed out in recent articles on Superstring theory that there is a connection between the subatomic particle called the graviton and the electron. It may be possible to produce electricity by using a process that exploits this connection between the two particles.
  • the present device utilizes a process, identified for the purposes of this document as the graviton pressure conversion process, in order to convert stored graviton pressure into motion.
  • graviton pressure is used for the purposes of this document to describe pressure, such as atmospheric pressure, generated by the interaction of gravitons with particles of mass.
  • Atmospheric pressure is the result of interactions between gravitons and mass particles.
  • gravitons are also force-carrying particles that are exchanged between all bodies of mass, such as the sun, earth, moon, etc.
  • gravitons interact with mass particles, they tend to force the mass particles towards the center of a large mass, such as the earth.
  • gravitons responsible for the earth's gravitational pull interact with air mass particles, pulling them towards the center of the planet. Without this interaction, the earth's atmosphere would not be possible. This same graviton/mass particle interaction process is responsible for the graviton-developed
  • TurvitronTM power system includes both the graviton/air mass particle
  • the net result of these interactions is that energy is stored in the form of pressure, such as atmospheric pressure or the pressure energy stored in fluid at a depth in the ocean or in a reservoir.
  • These stored energy forms can be collectively designated graviton pressure. Since this stored pressure is also found in a state of equilibrium, a new energy release process is required to convert this pressure into other useful energy forms. This new release process is referred to in this document as the graviton pressure conversion process.
  • the graviton pressure conversion process can convert stored graviton pressure, developed by the interaction between gravitons and mass particles, into motion that can be used to produce electricity.
  • Energy input is required to start the thermal process that converts photon- developed chemical energy into heat which can be used to produce motion or electricity. Certain parameters must be met in order for the thermal conversion process to occur. For instance, a sufficient amount of stored photon-developed chemical energy is required, a sufficient amount of oxygen is required, and the external energy input must be sufficient for the stored chemical energy to reach its release (combustion) point. Likewise, certain parameters must be met in order for the graviton pressure conversion process to occur.
  • a sufficient amount of stored graviton-developed pressure energy is required, a sufficient photon-provided pressure/graviton-provided pressure ((P(p)/P(g)) ratio is required, proper flow tube entrance geometries and length/diameter ratios are required, the appropriate dynamic flow release rate is required, and the external input energy must be sufficient for the stored graviton-developed pressure energy to reach its release point.
  • FIG. 1 depicts the TurvitronTM test system 40 that has been developed to
  • air mass particles 65 which comprise the atmosphere in air chamber 69, interact with gravitons 63 to exert graviton pressure in horizontal cylinder 70.
  • the graviton pressure in air chambers 68 and 69 are in equilibrium due to air pipe connection 54.
  • the total pressure stored within unit of fluid 148, shown in Figures 2a, 2b, and 2c, is due to the combined effect of photon pressure P(p) provided by diesel powered water pump 50 and stored graviton pressure P(g) provided by the graviton/air mass interaction process.
  • Water 62 flows from an area near the top of vertical cylinder 66, along the axial length of vertical cylinder 66 to an area near the bottom. Water 62 then flows into reservoir 70 via graviton pressure conversion chamber 58. Water 62 from reservoir 70 is pumped, by diesel powered water pump 50, through return flow pipe 56 and back into vertical cylinder 66.
  • Vacuum system 52 is used to reduce the graviton pressure P(g) in TurvitronTM
  • test system 40 This is accomplished by using vacuum system 52 to remove air mass particles 65 from both air chambers 68 and 69.
  • the flow rate of water 62 through graviton pressure conversion chamber 58 is measured by pressure gauge 74.
  • the graviton pressure P(g) in common air chambers 68 and 69 is measured by pressure gauge 60.
  • the photon pressure P(p) due to the fluid head, h, of water 62 that is provided by diesel powered water pump 50 is measured by pressure gauge 59.
  • graviton pressure conversion chamber 58 contains graviton pressure P(g) and photon pressure P(p).
  • TurvitronTM test system 40 If the parameters needed to produce a graviton pressure
  • TurvitronTM test system 40 has yielded a number of insights into how stored
  • photon-developed and graviton-developed pressure influence the flow geometry of fluid within graviton pressure conversion chamber 58.
  • Fluid motion from a reservoir is the result of converting pressure that is stored in unit of fluid 148 into motion.
  • Classical theory only recognizes as being convertible into motion that portion of the stored pressure that is developed from the photon.
  • the flow cross-sectional area 61 of the fluid flowing through graviton pressure conversion chamber 58 is reduced significantly. The kinetic energy per unit of fluid flowing through this reduced area 61 is greater than the kinetic energy provided only by the photon-developed pressure contribution.
  • the increased motion occurs at a localized point where the cross-sectional flow area 61 of the fluid is significantly decreased.
  • a good physical explanation as to why the cross-sectional flow area 61 decreases is that as the stored graviton- developed pressure is converted into motion, the kinetic energy level of each unit of fluid increases at the localized conversion point. Since fluid is incompressible, the increased kinetic energy level of each unit of fluid flowing through the localized point causes the flow cross-section to decrease in area. Therefore, the true head (or depth) causing flow at this localized conversion point increases beyond that recognized by classical theory.
  • One explanation for the increase in effective head is that it is the result of the opening up of one of the curled spatial dimensions predicted by Superstring theory.
  • This dimension unfolds from a size that is too small to measure to a magnitude that is large enough to produce an observable effect in our universe.
  • the experimental observation of the q dimension is important in that it provides observational data consistent with Superstring theory. From an energy standpoint, the observed change in fluid flow geometry due to graviton-developed pressure is important because losses related to motion produced by the graviton pressure conversion process are replaced by the continuous graviton/mass interaction process as rapidly as the graviton-developed pressure is consumed.
  • Figure 2 is a diagram illustrating the photon and graviton-developed pressure energy contributions to a unit of fluid moving through graviton pressure conversion chamber 58.
  • the total pressure contained in a unit of fluid 148 located at a depth, h, in a reservoir is made up of photon P(p) and graviton P(g) developed pressures.
  • Figure 2(a) illustrates the flow process resulting from converting the stored pressure contained in a unit of fluid 148 into motion. The flow is defined by the movement of unit of fluid 148 from point 150 to point 152, and then to point 154.
  • the equation that defines the flow process is as follows:
  • ⁇ F represents the summation of all of the forces that act on unit of fluid 148, m
  • the new term AP(g) is the graviton-developed pressure that is utilized as an input by
  • Figure 2(c) illustrates the forces at work in the newly recognized case in which the graviton pressure conversion process is involved.
  • the stored graviton-developed pressure P(g) becomes an active player and causes an increase in fluid velocity per unit of fluid 148 flowing through graviton pressure conversion chamber 58.
  • the true equation describing the motion of unit of fluid 148 is:
  • TurvitronTM test system 40 has been used to confirm that the graviton-developed
  • flow-stop valve 51 To start the flow process through graviton pressure conversion chamber 58, flow-stop valve 51 must be opened. If flow-stop valve 51 is opened rapidly, flow pattern 71 through graviton pressure conversion chamber 58 will be that shown in Figure la, which does not involve the conversion of graviton-developed pressure into motion. Flow-stop valve 51 must be opened slowly such that flow pattern 73 shown in Figure lb is developed. As soon as flow-stop valve 51 is opened, diesel powered water pump 50 must be started in order to
  • m a represents the air mass particles
  • g is the intensity level of the graviton field
  • a a is the area over which the graviton pressure acts.
  • the flow velocity through graviton pressure conversion chamber 58 is monitored by pressure gauge 74. Therefore, as we proceed to reduce the level of graviton-developed pressure, P(g), contained in each unit of fluid 148 flowing through graviton pressure conversion chamber 58, we will be able to determine whether or not the flow velocity of unit of fluid 148 is reduced.
  • P(g) the level of graviton-developed pressure contained in each unit of fluid 148 flowing through graviton pressure conversion chamber 58
  • the test results showed that the flow velocity of unit of fluid 148 flowing through graviton pressure conversion chamber 58 drops significantly when the graviton-developed pressure is reduced. This proves that part of the flow velocity (motion) of unit of fluid 148 was provided by the conversion of stored graviton pressure into motion. Knowing that it is possible to convert motion into electrons, it is obvious that we have validated the Superstring theory prediction that a connection exists between the graviton and the electron.
  • TurvitronTM test system 40 can also be used to validate the existence of the q dimension, which is also predicted by Superstring theory.
  • the pressure change related to the decrease in " motion (velocity) due to the reduced graviton pressure was quantified (by gauge readings) at 1648 lbs/ft 2 .
  • the magnitude of the associated q dimension was determined to be 26.4 ft by using the following formula:
  • FIGS 3 and 4 are schematic illustrations of an embodiment of TurvitronTM
  • TurvofluidTM 104 depth in TurvofluidTM 104 is the sum of the graviton 63 and air mass 65 interaction
  • the system is comprised of three units.
  • the first unit is reinforced concrete support structure 80, which should be lined with a non-corrosive material.
  • the second unit is upper metal structure 82, tied to the top of reinforced concrete structure 80.
  • Gas (such as air)/Fluid separation unit 84 is part of upper metal structure 82.
  • the third unit is cylindrical housing assembly 86.
  • This assembly houses reaction turbine 88, electrical generator 90, graviton pressure conversion chamber 92, expansion tube 94, air delivery ducts 96, and air delivery system 98.
  • Reaction turbine 88 may be either a fixed-bladed reaction turbine or .a Kaplan reaction turbine.
  • Cylindrical housing assembly 86 can be divided into three subunits.
  • the first subunit houses reaction turbine 88, electrical generator 90, and graviton pressure conversion chamber 92.
  • the second subunit houses expansion tube 94 and air delivery ducts 96.
  • the third subunit consists of air delivery system 98. Electrical input and output of the system is controlled by electrical
  • TurvofluidTM 104 is a high density, low viscosity fluid which readily changes density with the injection of air or other suitable gases.
  • inlet 77 can be opened, however, if other suitable gases are used, inlet 77 would be closed. For the following discussion, the air option will be used.
  • the system is started by using an axillary high pressure compressor to inject a gas, such as air, into TurvofluidTM 104.
  • a gas such as air
  • the axillary high pressure compressor may
  • the low pressure air delivery system 98 is capable of providing the input required to develop the low density air/fluid mixture. As air is injected into TurvofluidTM 104 via air delivery ducts 96, shown in
  • TurvitronTM system. As Turvofluid 104 flows out of the top of expansion tube 94 and
  • TurvofluidTM 104 returns to its original density once it flows
  • Section A-A of Figure 3 shows the flow path 109 of the low density air/fluid mixture from expansion chamber 94 into reservoir 108. Also shown are air-flow ducts 110. Section B-B of Figure 3 shows the flow
  • graviton pressure conversion chamber 92 and expansion tube 94 are separate components attached as part of the whole power system. However, it is also contemplated that graviton pressure conversion chamber 92 and expansion tube 94 could be connected as a single graviton pressure conversion unit which could be moved from site to site, or reservoir to reservoir, as a portable means of producing electricity from stored graviton energy.
  • Figure 4 is a magnified view of the graviton pressure conversion chamber 92 of Figure 3 that shows the outer ring air injection configuration. Air flow produced by air delivery system 98 of Figure 3 is directed along flow arrow 107 and into
  • pressurized air chamber 103 pressurized air chamber 103.
  • the air then injects into TurvofluidTM 104 in graviton pressure conversion chamber 92, as shown in Figure 4.
  • TurvofluidTM 104 is controlled by circular ring 101, which can be rotated to adjust the size of the openings of air delivery ducts 96, or to close them entirely. High-density
  • TurvofluidTM 104 moves along a pressure gradient as indicated by flow arrow 109.
  • TurvofluidTM 104 passes through reaction turbine 88.
  • Reaction turbine 88 is connected to electrical generator 90, shown in Figure 3, by means of shaft 111.
  • electrical generator 90 shown in Figure 3
  • the movement of TurvofluidTM 104 along the pressure gradient established by air injection is used to generate electricity.
  • the parameters required for the graviton pressure conversion process have been alluded to above and are described in more detail here. What follows is are the parameters for a preferred embodiment of the graviton pressure conversion chamber, however, it is contemplated that other values may be operative.
  • a sufficient amount of graviton-developed pressure is required in order for the process to work. Tests using TurvitronTM test system 40 have established the amount of graviton-developed pressure available must be 14 psi or more.
  • the length to diameter ratio of graviton pressure conversion chamber 92 is preferably in the range of 2 to 3.
  • Graviton pressure conversion chamber 92 must also have a proper converging/diverging internal nozzle geometry.
  • the proper geometry is preferably as follows.
  • the diameter of reaction turbine 88 is preferred to be 0.4 to 0.6 times the diameter of the opening of graviton pressure conversion chamber 92.
  • the distance from the entrance of graviton pressure conversion 92 to the center of reaction turbine 88 is preferred to be 0.1 to 0.3 times the length of graviton pressure conversion chamber 92.
  • the interior structural profile of graviton pressure conversion chamber 92 curves inwardly from the entrance of the chamber to the center point of reaction turbine 88, at which point the diameter of the interior structural profile of graviton pressure conversion chamber 92 is preferably approximately 0.4 to 0.6 times the diameter at the entrance to the chamber.
  • the interior structural profile of graviton pressure conversion chamber 92 curves outwardly from the center point of reaction turbine 88 for a preferred distance of 0.20 to 0.40 times the length of the chamber, at which point the diameter of the interior structural profile of the chamber is preferably 1.2 to 2.5 times the diameter at the entrance.
  • the expansion tube 94 is designed to accommodate the expansion of the air/fluid mixture.
  • FIGS 5 and 6 illustrate an alternative embodiment of TurvitronTM power
  • Figure 6 is a magnified view of the dual graviton pressure conversion chamber 93 configuration of the device of Figure 5. As shown, air injection occurs through air injection ducts 96 and 97, while the size of ducts 96 and 97 can be varied by rotating rings 101.
  • FIG 7 summarizes the operation of the TurvitronTM power system.
  • density ratio (p lt ) is plotted along the horizontal axis, while pressure is plotted along the vertical axis.
  • p n is equal to 1.0, which means that the density of the fluid in expansion tube 94 is equal to the density in reservoir 81. While this condition exists, there is no flow.
  • p n approaches zero, which means that the density of the fluid in expansion tube 94 is very low, while the density of the fluid in reservoir 81 is high. This very large difference in density causes a high flow rate through reaction turbine 88, which will result in the production of electricity.
  • Point 112 in Figure 7a represents the Classical theory air injection point of the TurvitronTM system, while point 114 in Figure 7b represents the True theory air injection point.
  • E ) [ ⁇ f - ⁇ f (l- Pn )]HQ a ⁇ T
  • E(p) represents photon-developed energy input provided by the air delivery and injection system
  • Pi represents gas infection pressure (psi)
  • Qa represents the volume of gas delivered (cubic inches/second)
  • AT represents time in seconds
  • a>f represents the weight per volume of the fluid (pounds per cubic inch)
  • p drone represents the density of the air/fluid mixture
  • H represents the depth of the reaction turbine.
  • E(input) E(p) + E(g) where E(p)v& the photon-developed pressure input and E(g) is the graviton-developed pressure input.
  • the energy output for this case is as follows:
  • graviton pressure conversion process is free of environmental concerns. Furthermore, graviton pressure is a renewable resource, since as the graviton pressure P(g) is converted into motion, a recharge process involving the continuous graviton/mass interaction process occurs that replenishes the consumed graviton pressure.
  • the energy ratio (E ⁇ ) for the TurvitronTM system is represented by the
  • Figure 8 is a graph illustrating solutions to the above equation for values of k ⁇
  • the graviton pressure level is much higher for the power system as shown in the following equation.
  • TurvitronTM power system 99 shows that the energy ratio E R is expected to be about 10.0. This means that for every 10 inch-pounds of energy provided by the photon pressure, there will be 100 inch-pounds of energy provided by graviton
  • TurvitronTM power system 90 can operate using only graviton-
  • TurvitronTM power system 99 requires an energy
  • graviton pressure conversion chamber 92 or 93 starts converting stored graviton-developed pressure P(g) into motion. When this occurs, the graviton pressure resource becomes an active energy input to the system.
  • TurvitronTM power system 99 Performance analyses of TurvitronTM power system 99 has shown that the net electrical energy can be designed to vary from the lower kilowatt power output levels up into the megawatt power output range.
  • the TurvitronTM power system 99 it can be designed to fit the needs of a wide spectrum of customers, such as small corporations and small cities, to very large manufacturing plants and large utilities.
  • the present device provides a method for utilizing the graviton pressure conversion process to produce electricity from the renewable graviton-developed pressure resource.
  • Such consideration of the graviton as an active player in an energy-production scheme is contrary to the teachings of the prior art.
  • the present device provides experimental confirmation of two predictions made by

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Abstract

L'invention concerne un procédé permettant de convertir une pression de graviton stockée en énergie électrique. Une énergie de pression de graviton est concentrée par stockage d'un fluide à une profondeur telle que le fluide atteigne une pression d'au moins 14 livres par pouce carré. Le fluide soumis à la pression de graviton est dirigé de manière à s'écouler dans une chambre de conversion de pression de graviton, aux fins de conversion de la pression de graviton stockée en déplacement. Le déplacement produit dans ladite chambre est mis en oeuvre pour faire tourner une turbine reliée de manière fonctionnelle à un générateur électrique.
PCT/US2002/007614 2001-03-15 2002-03-14 Chambre de conversion de pression de graviton WO2003001057A1 (fr)

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WO2011110706A1 (fr) * 2010-03-08 2011-09-15 Francisco Javier Rosende Barturen Source utilisant la différence de densité des fluides afin de produire de l'énergie renouvelable
ES2397408A1 (es) * 2011-06-28 2013-03-06 Julián ROSENDE BARTUREN Fuente, que aprovecha la diferencia de densidad de los fluidos, para la producción de energía renovable, mejorada.
US20150293003A1 (en) * 2014-04-09 2015-10-15 Francisco Javier Rosende Barturen Source, which harnesses the difference in density between fluids for the production of renewable energy

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BE693126A (fr) * 1967-01-24 1967-07-03
US4100743A (en) 1976-12-20 1978-07-18 The Northwestern Mutual Life Insurance Company Gravity engine
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WO2011110706A1 (fr) * 2010-03-08 2011-09-15 Francisco Javier Rosende Barturen Source utilisant la différence de densité des fluides afin de produire de l'énergie renouvelable
ES2365074A1 (es) * 2010-03-08 2011-09-21 Julian Rosende Barturen (60%) Fuente, que aprovecha la diferencia de densidad de los fluidos, para la producción de energía renovable.
ES2397408A1 (es) * 2011-06-28 2013-03-06 Julián ROSENDE BARTUREN Fuente, que aprovecha la diferencia de densidad de los fluidos, para la producción de energía renovable, mejorada.
US20150293003A1 (en) * 2014-04-09 2015-10-15 Francisco Javier Rosende Barturen Source, which harnesses the difference in density between fluids for the production of renewable energy
US9255869B2 (en) * 2014-04-09 2016-02-09 Francisco Javier Rosende Barturen Source, which harnesses the difference in density between fluids for the production of renewable energy

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