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    Технология Бриллюэна является собственный метод электрической стимуляции никелевых металлических проводников с использованием системы управления мощностью. Подаются импульсы на систему, чтобы генерировать избыточное тепло. Избыточное тепло является продуктом реакции в водороде (с водой или газом) в никель-металл-решетке.

    Реактор преобразует водород в гелий, который имеет несколько меньшую массу-этот дефект масс создает большое количество тепловой энергии без сжигания источники углеводородов энергии. Реактор очень мал по сравнению с количеством тепловой энергии выхода, что делает технологию очень чистой и эффективной с практически неисчерпаемым источником топлива. Бриллюэн в настоящее время работает над устройством производства тепла коммерческого уровня.
    Бриллюэн разработал две системы:

    1) Котел WET ™, который разрабатывается для получения тепла от 212º до 302º по Фаренгейту, и предназначен для отопления домов и использования горячей воды.
    2) Котел ННТ ™, которая находится на этапе проектирования для получения тепла в 932º в 1,112º по Фаренгейту, и предназначен для коммерческого производства электроэнергии.

    Brillouin Energy Corp. presented its groundbreaking thermal energy technology on Capitol Hill last week. Attendees included Members of Congress, congressional aides, federal government officials, industry representatives, and citizens’ groups concerned with the federal government’s progress on developing clean energy solutions.

    “It was great to see that much interest in DC for a true safe green nuclear power technology,” commented Brillouin’s President and Chief Technology Officer, Robert Godes.

    Attendees were able to learn about Brillouin’s prototype LENR reactors and hear from a number of speakers, including Dr. Michael McKubre of Stanford Research International (SRI). Brillouin and SRI have entered into a technology research agreement under which SRI is engaged in calibration testing and independent analysis of the Brillouin technology.

    As Dr. McKubre noted in a report distributed at the event, “it is very clear that something on the order of four times (4x) and potentially more gain in power (and therefore ultimately energy) was achieved at an impressive and industrially significant operating temperature of around 640°C. To my knowledge this had not been achieved before in the LENR field. The fact that the Q pulse input is capable of triggering the excess power on and off is also highly significant.”

    In addition, Dr. Banning Garrett, former Strategic Foresight Senior Fellow at the Atlantic Council, was also present and issued a report detailing the current status of the LENR field and credibility of Brillouin’s claims. As Dr. Garrett noted, “LENR power generation, if realized, has the potential to become one of the technologies for transformation of the global energy system.”

    Brillouin’s breakthrough technology is now garnering national and international attention and the company looks forward to working with government and industry leaders to bring this technology to market.

    Background on Brillouin

    Brillouin Energy Corporation is a clean-technology company based in Berkeley, CA, which is developing, in collaboration with the Stanford Research Institute (SRI), an ultra-clean, low-cost, renewable energy technology that is capable of producing commercially useful amounts of thermal energy.

    The Brillouin technology is based on low energy nuclear reactions (LENR). The result is ultra-clean, low-cost, and sustainable renewable energy that doesn’t rely on any type of fossil fuel, chemical, or nuclear fuel. This process produces zero emissions and no solid wastes which pollute the environment.

    Brillouin’s technology is a proprietary method of electrical stimulation of nickel metal conductors using a proprietary control system. The process pulses the system to generate excess heat. The excess heat produced is a product of reactions in hydrogen (from water or gas) in the nickel metal lattice. The process is neither fission nor fusion—rather, electrons change protons to nearly-stationary neutrons in the nickel metal lattice, generating heat.

    The reactor converts hydrogen into helium, which has slightly less mass—that mass difference creates a large amount of thermal energy without burning any hydrocarbon energy sources. The reactor is very small relative to the amount of thermal energy output, making the technology very clean and efficient with a virtually inexhaustible fuel supply. Brillouin is currently working to scale the heat production up to commercial output levels.

    Brillouin has developed TWO systems:

    1) The WET™ Boiler, which is being designed to generate heat from 212º to 302º Fahrenheit, and is intended for home heating and hot water use.
    2) The HHT™ Boiler, which is being designed to generate heat at 932º to 1,112º Fahrenheit, and is intended for commercial electricity generation.

    For more information:
    POC: Robert George


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