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Method for producing electric energy and heat energy and reactor thereof

A reactor and reaction technology, applied in thermonuclear fusion reactors, nuclear reactors, fusion reactors, etc., can solve problems such as incompleteness

Inactive Publication Date: 2009-01-21
弗兰克·博林·菲茨杰拉德
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  • Application Information

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Problems solved by technology

Although not mentioned in Purdue's announcement, the mathematical concept of Li also gives credence to the use of the mathematical model in the reactor design here, which is now described as complete, while the prior art lacks a model of Li as a mathematical proof is incomplete

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  • Method for producing electric energy and heat energy and reactor thereof

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Embodiment Construction

[0037] For a brief description of the reactor and design methodology, see figure 1 .

[0038] A fail-safe, electronically controlled bubble fusion deuterium reactor and a method for its design are disclosed. exist figure 1 In the reactor shown, chamber B contains pure D 2 O, in which the liquid is precisely placed in two parallel piezoelectric thickness vibrating electroacoustic quartz crystal transducers. The gap between them is very small and finely tuned between 20 μm and 50 μm to obtain maximum transducer electrical output in relation to thermal energy generation.

[0039] The piezoelectric transducer is here a bidirectional energy converter. They convert electrical energy into ultrasonic and ultra-high frequency EM, which is transmitted to liquid D 2 O reaction gap, and, by the action of the D+D fusion mechanical motion impinging on the receiving transducer, this generates piezoelectric energy. Both rely on the factors described here to control the events of trans...

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Abstract

Disclosed is a method of Deuterium fusion and more particularly, a fail-safe, controlled bubble fusion reactor producing a power output of electricity and heat. It is self contained having 3 internal main chambers and externally mounted computer and electric power output terminals. Internal Chamber A contains devices for removing gases and solids, storage of fresh and spent liquid, pump and heat exchanger, pressure regulator and check valve, and sensors. Chamber B contains circulated pure liquid D2O within which are mounted a pair of parallel electroacoustical piezoelectric quartz crystal transducers with a narrow reaction gap between supplied with transducer energies of ultra-sonic sound plus amplitude modulated UHF EM. A cycled gap sonic pressure wave creates small bubbles which absorb both gap energies so as to cycle through radius increases during the negative portion of the energies cycle and then violent collapse during the positive portion of the energies cycle to a very small radius in 2 stages. During end of final stage, a collapsing spherical bubble produces a spherical shock wave allowing ''selective resonant tunneling'' through the Coulomb barriers of pairs of adjacent Deuterium nuclei resulting in fusion. Chamber C contains 2 RF generators and some electronics for controlling the fusion reaction. External computer provides electronic fail-safe oversight, visual touch-screen display of system functions for monitoring and making adjustments, and manual by-pass fail-safe override push switch.

Description

technical field [0001] The present invention relates to methods and reactors for generating electrical and thermal energy by controlled and fail-safe fusion of deuterium nuclei, which takes place in D 2 O Bubbles, D 2 O bubbles in a narrow liquid state between a pair of transducers D 2 O in the reaction gap and cycle in ultrasonic energy and AM UHF EM with a radius. Background technique [0002] Hugh G. Flynn, US Patent 4,333,796, June 8, 1982. His cavitation sonic bubble fusion patent describes a fusion reactor process as "thermonuclear fusion" at a temperature described as that of a liquid soft metal, not as described here as a liquid D 2 The "cold fusion" temperature of O's temperature. His patent covers 2 cavity fusion reactors each containing 6 acoustic wave generators. The reactor he described does not produce electricity directly, only heat, but can generate electricity when the temperature is high enough to maintain a steam turbine. His design did not suggest t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G21B1/00
CPCG21B3/00Y02E30/18Y02E30/10
Inventor 弗兰克·博林·菲茨杰拉德
Owner 弗兰克·博林·菲茨杰拉德
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