Press Relase :
BlackLight Power, Inc. Announces Production of Electricity from a New Form of Hydrogen
Independent studies validate breakthrough non-polluting energy source based on hydrino theory
Cranbury, NJ (November 29, 2010)—BlackLight Power, Inc. (BLP) today announced that CIHT (Catalyst-Induced-Hydrino-Transition) technology has been independently confirmed by Dr. K.V. Ramanujachary, Rowan University Meritorious Professor of Chemistry and Biochemistry.
“We have demonstrated the ability to produce electrical power using chemical systems for the direct production of electric power from the conversion of hydrogen to hydrinos, a more stable form of hydrogen,” said Dr. Randell Mills, Chairman, CEO and President of BlackLight Power, Inc. “CIHT has a forecasted nominal cost per unit of power compared to that of thermal-based systems and produces electricity without requiring enormous thermally-driven mechanical generators. Consequently, more rapid dissemination is expected by deploying many autonomous distributed units that circumvent the huge barriers of entry into the power markets such as developing and building massive billion-dollar power plants with their associated power distribution infrastructure. This is especially true in emerging markets.”
BlackLight Power is first focused on advancing CIHT technology to produce power to ultimately sell directly to consumers under power purchase agreements.
“The business plan is akin to that of solar leasing, but the costs are potentially vastly cheaper, and the systems may be deployable for essentially all applications of all scales untethered to the Sun or the grid, or as in the case of fuel cells and cars, a fuel supply,” said Dr. Mills. “To realize how transformational this technology will be, imagine that an electric car can travel over 5,000 miles on the hydrogen energy from a gallon of water without any pollution whatsoever. The power source can then be lifted out and plugged into your electrical panel to power your home with enough power to spare to also power your neighborhood,” continued Dr. Mills.
Akridge Energy, a licensee, intends to deploy distributed-scale CIHT electric power units at commercial real estate properties and sell electricity to its tenants and eventually into the local electric grid. John E. Akridge III, chairman and owner of Akridge Energy said, “BLP’s breakthrough CIHT technology will allow us to become a major green-power producer for the DC metro area while enabling dramatic savings and unheard of independence. It is ideal for our needs across the full spectrum of our applications: powering apartment complexes, commercial offices, retail outlets, and mixed-use projects.”
Dr. K.V. Ramanujachary said, “The chemicals used in CIHT technology are similar to those used in thermal and chemical cells that were separately, thoroughly and diligently validated over the past three years by a team at Rowan University that included myself. Since the measurements on CIHT are electrical versus calorimetric, there can be no dispute over the power and the energy balance. With further optimization, there is no doubt that this technology will present an economically viable and environmentally benign alternate to meet Global energy needs. If advanced to commercialization, it would be one of the most profound developments ever.”
Completion of Thermal Energy Balance and Chemical Characterization of Solids Fuels at Rowan University
Additionally, an expanded team of scientists and engineers at Rowan University completed a thorough year-long series of additional testing of the thermal systems following the announcement and release of their validations in October 2008 and August 2009. Using BLP’s proprietary solid-fuel chemistry capable of continuous regeneration, independently formulated and tested fuels generated on-demand energy greater than that of combustion at power levels of kilowatts. Furthermore, when using BLP’s chemical process, Rowan University professors reported a net energy gain of up to 6.5 times the maximum energy potential of these materials from known chemical reactions.
In a joint statement, Dr. K.V. Ramanujachary, Rowan University Meritorious Professor of Chemistry and Biochemistry, Dr. Amos Mugweru, Assistant Professor of Chemistry, Dr. John L. Schmalzel P.E., Professor of Engineering and Dr. Peter Jansson P.E., Associate Professor of Engineering said, “In additional independent tests conducted over the last 12 months involving 13 solid fuel mixtures made by us from commercially-available chemicals confirmed by multiple analyses, our team of engineering and chemistry professors, staff and students at Rowan University has independently and consistently generated energy in excesses ranging from 1.3 times to 6.5 times the maximum theoretical heat available through known chemical reactions.”
Chemists Drs. Ramanujachary and Mugweru said, “Additionally, we have analyzed the reactants and reaction products and are confident that the procedures we have followed and chemicals we have procured, characterized, and reacted are not capable of generating the quantities of heat we have observed with previously known chemistry. This significant development makes it readily possible for other laboratories to demonstrate the repeatability of these reactions that produce anomalous heat regularly in our university laboratory. Moreover, we have also reproduced BLP’s tests for the third time that identify a new form of hydrogen as the likely explanation of the additional heat produced.”
Light Signature of Hydrino
BLP also announced today the replication of the extraordinary high-energy light emission below 80 nm from hydrogen at the Harvard Smithsonian Center for Astrophysics (CfA). These results, previously thought to be impossible based on past theory, are predicted to be from the formation of hydrinos. The direct spectral observation of transitions of hydrogen to form hydrinos and their ubiquitous astrophysical presence as the identity of the dark matter of the universe were published in a paper entitled “Hydrino Continuum Transitions with Cutoffs at 22.8 nm and 10.1 nm,” (Int. J. Hydrogen Energy) by Dr. Randell Mills and Dr. Ying Lu. The CfA validation, which was headed by team leader Alexander Bykanov, PhD under contract with GEN3 Partners, showed hydrogen spectral emissions below 80 nanometers, the previously known ground state. This is decisive evidence of the existence of hydrinos as Dr. Randell Mills theoretically predicted.
Describing the significance of the breakthrough, Dr. Mills said, “This is smoking-gun evidence of the existence of hydrinos. The light signature observed is from pure hydrogen and exists at a much higher energy level than deemed possible for this element in any known form.” In a joint statement, Dr. Alexander Bykanov and Dr. Sam Kogen, GEN3 COO, said, “BLP’s spectral results were identically independently reproduced, and we could find no conventional explanation for the emission of bright light from hydrogen in this very high energy region. We believe that this confirms hydrino emission.”
The Rowan validations of power production and hydrino product identification and the GEN3 Partners validation of hydrino light emission further confirm the BlackLight Process as a new non-polluting energy source. This process was first announced by BLP in October 2008. Hydrinos are a prior undiscovered form of hydrogen in lower-energy states produced by the BlackLight Process as latent energy is released by hydrogen atoms. The energy released during the formation of a hydrino is over 200 times the energy required to extract hydrogen from water by electrolysis. The CIHT cells are shown to extract this energy directly as electricity. With the diversion of a fraction of a percent of the electrical output, the hydrogen fuel can be created from water with the net providing power on-site. Thus, power can be generated anywhere including at homes and businesses and in cars without supporting fuels, generation, or distribution infrastructure. BlackLight thermal power sources are also independent of a fuels infrastructure and have further advantages over traditional central generation in distributed electrical power applications as well as retrofits. Engineering designs are available at: http://www.blacklightpower.com/.
Successful Application of Theory
The classical theory that predicts the existence of hydrinos has enjoyed a number of other recent significant confirmations and successes. These include:
* The prediction of an important emission line from hydrino atoms at 24.1cm-1
* The absence of time dilation in red-shift quasars together with acceleration of the cosmic expansion and the masses of fundamental particle regarding the nature of spacetime
* The solution of the muonic H Lamb shift regarding the nature of particles such as the electron and photons and their physics of atomic bonding and energy transitions in atoms
* The vast solutions of bonding in molecules and other forms of matter that are the basis of the Millsian software
Professors Peter Jansson, K.V. Ramanujachary, and Amos Mugweru, have released reports outlining the full documentation and results of the off-site replication and independent testing of the new power systems, new-generation chemistry, and hydrino characterization testing, which are available at: http://www.blacklightpower.com/. Recent presentations and other materials that help to further explain the BlackLight Process are also available on BLP’s Web site.
A technical paper providing the detailed chemistry that BLP believes laboratories can easily follow and replicate is given at http://www.blacklightpower.com/.
Dr. Alexander Bykanov and Dr. Sam Kogen have released a report outlining the full documentation and results of the replication of the hydrino emission at CfA, which are available at: http://www.blacklightpower.com/. BlackLight’s published hydrino-emission paper can also be found there.
About BlackLight Power
BlackLight Power, Inc. is the inventor of a new primary energy source applicable to essentially all power applications such as thermal, electrical, automotive, marine, rail, aviation, and aerospace. The BlackLight Process, the power source, is the process of releasing the latent energy of the hydrogen atom.
For more information, please visit http://www.blacklightpower.com/
About Rowan University
Rowan University, Glassboro, NJ, is a highly ranked comprehensive public university that offers bachelor through doctoral degrees. The University comprises seven colleges: Business, Communication, Education, Engineering, Fine & Performing Arts, Liberal Arts & Sciences, and Professional & Continuing Education. U.S News & World Report ranks Rowan’s College of Engineering 23rd in the nation among programs that offer bachelor and master degrees.
GEN3 Partners is a leading innovation consulting company based in Boston, MA with a network of 7,000 scientists and engineers experienced at testing and developing breakthrough technologies for Fortune 100 companies.
About Akridge Energy
Akridge Energy based in Maryland is an energy subsidiary of Akridge. Founded in 1974, Akridge is a full-service commercial real estate firm in the Washington, DC area. Their projects total over 12 million square feet of office, industrial/flex, residential, retail and entertainment space at a value of over $2.0 billion. For nine of the last ten years, Akridge has been ranked the number one real estate firm in the country, among firms of similar size, for client satisfaction by the industry’s foremost benchmarking firm, CEL & Associates. Akridge has been honored by awards for sustainability from the following organizations: the Greater Washington Board of Trade, the Washington Business Journal, Bisnow on Business, the District of Colombia’s Department of the Environment, the Smart Business Network of Washington, and the Environmental Protection Agency’s Energy Star program. Akridge is the winner of the National Capital Business Ethics Award given by the Society of Financial Service Professionals for ethical business conduct and is recognized as a “Best Place to Work” in Greater Washington according to the Washington Business Journal.
For more information about Akridge, please visit www.akridge.com
BlackLight Process: A novel chemical process invented by BLP causing the latent energy stored in the hydrogen atom to be released as a new primary energy source.
Hydrino: Hydrinos are a new form of hydrogen theoretically predicted and discovered by BLP. Hydrinos are produced during the BlackLight Process as energy is released from the hydrogen atom as the electron transitions to a lower-energy state resulting in a smaller radius hydrogen atom. The identity of the dark matter of the universe as hydrinos is supported by BlackLight’s spectroscopic and analytical results as well as astrophysical observations.
CIHT Technology: The direct generation of electrical power by the formation of hydrinos. The fuel is hydrogen that may be produced from water by diverting as little as 0.5% of the electrical output.
Spectral Emissions: Spectral emission of an atom such as hydrogen is a unique signature that acts like a fingerprint of its characteristics. Each line of the spectrum is characteristic of and identifies the energy levels of the atom.
Hill & Knowlton for BlackLight Power, Inc.
BlackLight Power, Inc. Overview
BlackLight Power, Inc. is the inventor of a novel catalytic chemical process, the BlackLight Process, of causing the latent energy stored in the hydrogen atom to be released as a new primary energy source. This allows the negatively charged electron that is otherwise in a stable orbit to move closer to the naturally attracting, positively charged nucleus to release large amounts of energy with the formation of a prior undiscovered form of hydrogen called “hydrino”. This patented process of releasing chemical energy from hydrogen generates power either as electricity or heat with the product being an inert, nonpolluting, very stable molecular hydrogen gas. The only consumable, the hydrogen fuel, is obtainable from water due to the enormous net energy release relative to combustion. Two hundred times more energy and power is released per H2 forming hydrino then forming water. Thus, water can be used as the stored hydrogen, generated on demand using 0.5% of the electrical output.
BlackLight Power has developed a breakthrough in direct production of electricity from reacting hydrogen to form hydrinos called a CIHT (Catalyst Induced Hydrino Transition) cell. The cost is forecast at $25 per kW with no dependence on the electrical grid, fuels infrastructure, sun, wind, or other external variable power sources allowing the CIHT cell to be autonomous. This clean sustainable technology, independent of existing conventional infrastructure can be directly deployed on site and is ideal to power smaller scale systems. Rapid dissemination of CIHT direct electric at nominal historic cost is expected by deploying many autonomous distributed units that circumvent the economy-of-scale constraints for thermal to electric conversion and the electrical grid. It is expected that CIHT will competitively, economically, logistically, and environmentally displace essentially all power sources of all sizes: thermal, electrical, automotive, marine, rail, aviation, and aerospace. For example, a CIHT electric car is expected to have a range of 1500 miles on a liter of water. This direct application of the BlackLight Process to motive power has the potential of unsurpassed capability in terms of range, capital cost, power, logistics, and pollution abatement to zero including zero carbon dioxide emission. Moreover, power systems become uniquely interchangeable (e.g. a motive cell may also be used for stationary power).
In addition, solid fuel chemistries have been developed that are very efficient at liberating thermal energy from forming hydrinos, and these fuels have been validated to be thermally regenerative. In principle, green thermal central and distributed power plants can be operated continuously as power and regeneration reactions of the fuel mixture are maintained in synchrony. Chemistries and engineering designs have been developed for two thermal-Rankine systems. One comprises a multi-tube thermally interacting bundle of cells wherein cells producing power provide heat to those undergoing regeneration. As a system, the power output is constant. The capital costs are projected to be about $1400 per kW electric. The other comprises an array of reactor cells wherein power and regeneration chemistries occur synchronously, and each cell outputs constant power. The capital costs are projected to be about $1050 per kW electric.
Arising from the unique energetics and hydrino products of the reaction, other anticipated commercial applications of the BlackLight Process are in lasers and specialty chemicals.
Electrical power from the CIHT cells, thermal power from the solid fuels and their thermal regeneration, hydrinos from both synthesis reactions and as a product of the CIHT cells and the solid fuels, as well as the light signature of the formation of hydrinos, and other signatures of the BlackLight Process have been independently validated. Additionally, the Company has over 85 peer-reviewed publications including 14 theory publications and the reviewed book GUT-CP. The Company continues to confirm its findings and submit its results for peer review with the publication of ten journal articles and three manuscripts currently under review in the past twelve months.