BlackLight Power, Inc. Announces Independent Validation of Breakthrough New Energy Source Based on a New Form of Hydrogen and Chemistry Capable of Continuous Regeneration

    BlackLight Power Physics Grand Slam: Power, Hydrinos, Light Signature,
    Theory Prediction Validated

    CRANBURY, N.J., Aug. 12 /CNW/ -- BlackLight Power, Inc. (BLP) today
announces that scientists at Rowan University have for the first time
independently formulated and tested fuels that on demand generated energy
greater than that of combustion at power levels of kilowatts using BLP's
proprietary solid-fuel chemistry capable of continuous regeneration. 
Operating power systems using BLP's chemistry, Rowan University professors
have reported a net energy gain of up to 6.5 times the maximum energy
potential of the materials in the system 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, and Dr. Peter Jansson P.E., Associate
Professor of Engineering said, "In independent tests conducted over the past
three months involving 10 solid fuels made by us from commercially-available
chemicals, our team of engineering and chemistry professors, staff, and
students at Rowan University has independently and consistently generated
energy in excesses ranging from 1.2 times to 6.5 times the maximum theoretical
heat available through known chemical reactions."

    "Additionally, we have analyzed the reaction products and are confident
that the procedures we have followed and chemicals we have procured and
reacted are not capable of generating the quantities of heat we have observed
with previously known chemistry.  This significant disclosure by BLP 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 that identify a
novel form of hydrogen as the likely explanation of the additional heat

    Based on the solid fuel used and power generated at scales of
approximately 30 kW, the reaction appears scalable to any level.  Moreover,
BLP scientists were able to regenerate the fuel by simply applying heat.  This
breakthrough advances the commercial viability of the BlackLight Process as a
new non-polluting energy source that was first announced by BLP in October

    Proof of Power

    The validation by the Rowan University team provides further evidence
that the observed energy gain will enable the operation of commercial power
plants by continuously replacing the hydrogen that is consumed by the
BlackLight Process to form hydrinos.  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 forming a
hydrino is over 200 times the energy required to extract hydrogen from water
by electrolysis to produce the new hydrogen fuel consumed during the
BlackLight Process.

    "The advanced version of the solid fuel is very efficient at liberating
energy from forming hydrinos and requires essentially no energy to reverse the
chemical product back into the initial fuel.  Regeneration was achieved simply
with heat. This is enabling of continuous generation of power using simplistic
and efficient systems that use heat liberated by forming "hydrinos" to
concurrently maintain regeneration.  The system is closed except that only
hydrogen consumed in forming hydrinos needs to be replaced," said Dr. Randell
Mills, Chairman, CEO and President of BlackLight Power, Inc.

    "The observed energy gain and successful thermal regeneration of the
solid fuel show the feasibility of using the solid fuel in a recycled manner
as a replacement for fossil and nuclear fuels in power plants.  These
developments are anticipated to result in a significant decrease in the time
to commercialization", noted Dr. Mills.

    John Miller, recently appointed to the Board of Directors of BLP and
former president of Standard Oil, described the recent advances saying, "The
successful development of new-generation chemistry and its simple thermal
regeneration is a major historical step toward near-term, commercial hydrino
power.  Our recent execution of eight billion watts of commercial licensing
agreements demonstrates that the power market is beginning to agree."

    Proof of Existence of Hydrinos

    BLP also announces successful independent production and characterization
of a new form of hydrogen by professors at Rowan University.  In the study
independently performed at Rowan University laboratories, Professor
Ramanujachary and Professor Mugweru synthesized from base materials the
previously undiscovered form of hydrogen and were able to characterize
hydrogen atoms existing in lower-energy states - called hydrinos - as
predicted by BLP.  In further confirmation, the Rowan University team was also
able to identify similar hydrino signatures from net energy producing systems
operating in Professor Jansson's laboratories.  This represents the first time
BLP has taught independent labs the techniques for making hydrinos from

    Dr. Ramanujachary remarked, "Recent advances in techniques at BLP in
production of this new form of matter appear to make it straightforward for
any lab in the world to synthesize sufficient volumes to characterize this
previously unknown form of hydrogen." Dr. Mugweru continues, "Knowing the
starting materials of the synthesis reaction and fully characterizing the
by-products, other than a new form of hydrogen, we were unable to make an
assignment to known species for the signatures observed."

    Light Signature of Hydrino

    BLP also announces today the publication of a paper, by Dr. Randell
Mills, Dr. Kamran Akhtar, and Dr. Ying Lu in the Central European Journal of
Physics describing a significant new confirmation of hydrinos.  For the first
time, BLP confirms direct spectral observation of transitions of hydrogen to
form hydrinos.  These experiments showing hydrogen spectral emissions below 80
nanometers, the previously known ground state, are decisive evidence of the
existence of hydrinos theoretically predicted by Dr. Randell Mills. 
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 at much higher energy than deemed possible
for this element in any known form."

    Successful Application of Theory

    BLP has published eight journal articles in the past seven months
reporting the energetic characteristics of its power-producing process and
released in July the newest edition of the Grand Unified Theory of Classical
Physics that predicts hydrinos.  These are available at:

    BLP's wholly-owned subsidiary, Millsian, Inc., a developer of molecular
modeling applications of classical physics, announces the release today of
Millsian 2.0 Beta software that can visualize the exact three-dimensional
structure and calculate physical characteristics of a boundless number of
molecules of any length and complexity including complex proteins and DNA. 
BLP believes that Millsian software represents a major breakthrough that may
impact nearly all businesses involved in drug development, material science,
and chemistry.  More importantly, it proves that classical laws of physics
apply at the atomic and molecular scale, the principle that predicted

    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 that is available at:

    A technical paper giving the detailed chemistry that BLP believes
laboratories can easily follow and replicate is given at

    About BlackLight Power

    BlackLight Power, Inc. is the inventor of a new primary energy source and
a new field of hydrogen chemistry with broad commercial applications.

    BlackLight Power has invented a new primary energy source with
applications to heating, distributed power generation, central power
generation, and motive power based on a new chemical process of releasing the
latent energy of the hydrogen atom, the BlackLight Process.

    For more information, please visit

    About Rowan University

    Rowan University, Glassboro, N.J., 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 12th in the nation among programs that offer bachelor and master


    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 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.

    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.

    Applications of BlackLight Process

    Two of the potential applications of its technology are in heating and
electric power production.  The heat-generating prototypes have shown the
BlackLight Process to be potentially competitive with existing primary
generation sources over a range of scales from micro-distributed to central
power generation.  The BlackLight Process thermal power source may be ideal
for interfacing with commercially available electric power generating
equipment.  BlackLight technology may be well-suited for the utility
industries and could reduce or eliminate problems such as those arising from
the variable regional supply and price of fuels such as coal, natural gas, and
oil, and the cost of building out a suitable supporting infrastructure and
transmission grids, as well as eliminate pollution, greenhouse gas emission
and other market, supply, infrastructure, or environmental adversities.

    Media Contacts:

    Ramya Kumaraswamy
    Hill & Knowlton for BlackLight Power, Inc.
    Mobile: 646-552-8639
    Office: 212-885-0552


For further information:

For further information: Ramya Kumaraswamy, Hill & Knowlton for
BlackLight Power, Inc., Mobile: +1-646-552-8639, Office: +1-212-885-0552, Web Site:

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