You are here: PureEnergySystems.com
> News > May 7, 2014
Chief Scientist Shares SHT Symphony 7A Secrets
| "This is a dream come true, Sterling. First time ever: Manageable Low Energy Nuclear Reaction
(MLENR). Now we know who is the father of real LENR."
-- Hakob Jack Aganyan, SHT President
Solar Hydrogen Trends, Inc.'s Chief Scientist, Konstantin Balakiryan,
explains some of the processes going on in they system that enables 1 liter of
water to convert to 1 kg of hydrogen gas. It involves a little chemistry, some
electrolysis, but is mostly probably due to nuclear processes.
Pure Energy Systems News
Solar Hydrogen Trends, Inc, who we recently interviewed
(totally amazing), has issued another press
Below the post, I discuss getting over there to visit in a week or
two. Hoping you might help cover the trip expenses, which aren't that much for a
flight from SLC to Burbank/LA.
Hydrogen Trends, Inc.'s Chief Scientist Konstantin Balakiryan Reveals the
Secrets of the Hydrogen Reactor Symphony 7A
Menlo Park, Calif., May 7, 2014 American company Solar Hydrogen Trends, Inc. announced in early March of 2014 the invention of world's first hydrogen reactor "Symphony 7A" capable of converting 1 liter of water into 1kg of hydrogen. In the two months that have followed, this claim has spurred much discussion in various forums worldwide, as people have been trying to explain the phenomenon of hydrogen reactor Symphony 7A. Konstantin Balakiryan, PhD, CEO, Founder and Chief Scientist, Solar Hydrogen Trends, Inc, writes:
"The following are some of the more notable comments (with my responses) from various forums representing views of individuals that I found most interesting."
1. "This is a Chemical Reaction"
Professor K. Balakiryan - "I agree. In Symphony 7A, active metal alloy is involved in the oxidation reaction. However, the amount of formed oxide for a one hour period is only 2.1%. During that same time, Symphony 7A produces more than 7 kg of hydrogen, and the share of that chemical reaction is only about 189 grams of hydrogen. If all the hydrogen in Symphony 7A reactor was produced by oxidation - reduction reaction, then in one hour we would spend 97.9 % of all active metal alloy, and the cartridge would have to be replaced practically every hour. This could have become the weak point of our hydrogen reactor. However, in Symphony 7A, the cartridge is replaced once a week, and for the model Symphony 7AM, cartridge replacement will take place once every four weeks.
2. "This is Electrolysis"
Professor K. Balakiryan - "The process in Symphony 7A is slightly similar to electrolysis. However, to produce 7 kg of hydrogen in one hour with standard electrolysis, we had to spend about 17 gallons of water. In Symphony 7A, less than 2 gallons of water were used. Thus, the contribution of electrolysis is about 690 grams of hydrogen per hour. As you can see, both of these processes play just a supporting role."
3. "This is Cold Fission and Cold Fusion"
Professor K. Balakiryan Indeed, at such low temperatures and minimum energy costs, we have low-temperature synthesis - connection (capture) with protons of free electrons and subsequent formation of hydrogen atoms (i.e., Cold Fusion). One should not forget that in hydrogen reactor Symphony 7A, before synthesis of hydrogen atoms takes place, decay of nuclei of oxygen atoms into nucleons should occur first, which under multifactorial influences are collectively excited and then begin to push each other away. They can reach critical distance where vectors of 'colored forces' are rotated to 180 degrees. This means that the energy of the strong interaction which provides the stability of nucleus is now working to 'push out' nucleons from the nucleus. Thus, the energy required to separate the nucleus into its composing nucleons is numerically equal to the energy used to create nucleus from separate nucleons, and therefore in accordance with the Einstein law, it should be determined by excess
= [zmp + (A - z)mn - Mn]
when the nucleons are in the
, the neutron converts into a proton without possibility of reverse
conversion to neutron, because this kind of conversion is possible only
for protons in the nucleus. For us it is extremely important because
with these additional free protons we are doubling production of
of these protons as a given, and the other proton is a result of neutron
decay (beta decay).
we consider this decay at the quark level, according to Prof. B.
Ishkhanov it would appear as if it passes in two stages. The first
step is the conversion of
to u-quark and boson W−
u + W−
the second step boson
decays , turning into an electron and
produced by the decay of the neutron, which is emitted from it with
great speed plays two very important roles:
1. With the collision of an atom of oxygen, (this collision) ionizes it.
2. With proton collision, (this collision) forms a hydrogen atom.
Since the process of Nuclear Fission in Symphony 7A proceeds at room temperature, it can be definitely considered as a Cold Fission.
4. "This is Nuclear"
Professor K. Balakiryan - "We have been avoiding using this term for some time because we are seriously investigating, and treat the scientific work and the description of physical phenomena, with the utmost of respect. We never display our wishful thinking as if it were reality as many do in various parts of the world. We can confidently state that in Symphony 7A, there is a transmutation process of atoms of oxygen into hydrogen.
Judge for Yourself: The composition of the gas mass on the exit of the hydrogen reactor in one hour makes more than 7 kg of hydrogen. Since the working substance in the Symphony 7A is water, then its decomposition product can only be oxygen and hydrogen.
There is no oxygen on exit. However, there is hydrogen, which is eight (8) times more than it should be. And where is the oxygen? There should be 6.2 kg. But there is not. Leakage of oxygen is excluded, because we know how volatile hydrogen is, and we made sure that our hydrogen reactor is hermetically sealed.
The answer is clear - "This is transmutation!"
However, transmutation of oxygen atoms to hydrogen atoms (reaction) at temperatures below 80F, and with energy input of 0.5 kWh can be called low energy nuclear reactions (LENR, aka cold fusion [but in this case it's not "fusion"]). There are no other options.
Therefore, this is classical LENR!!!
To understand and scientifically describe all processes in the hydrogen reactor, it will require efforts of hundreds of scientists and theoretical physicists and experimentalists. A team of scientists from Solar Hydrogen Trends, Inc. hopes that in the next few years, in partnership with you, esteemed members of the scientific community, we'll get the justification of physical processes in hydrogen LENR reactors Symphony 7 series.
For more information on the hydrogen reactor and how to contact the Company to conduct such research and testing, please visit
About Solar Hydrogen Trends, Inc.:
Menlo Park based firm Solar Hydrogen Trends, Inc. is an innovative technology firm focused on the development of clean air, cost reducing energy solutions for the multi-billion dollar Energy Services industry. Recipient of a 2013 grant from the Patricia Galloway and Kris Nielsen Foundation supporting scientists and engineers in developing creative and innovative ideas that will improve the quality of life for all, Solar Hydrogen Trends, Inc. consists of a team of chemists, physicists and engineers from across the globe.
Statements in this press release that are not statements of historical or current fact constitute "forward-looking statements." Such forward-looking statements involve known and unknown risks, uncertainties and other unknown factors that could cause the Company's actual operating results to be materially different from any historical results or from any future results expressed or implied by such forward-looking statements. In addition to statements that explicitly describe these risks and uncertainties, readers are urged to consider statements that contain terms such as "believes," "belief," "expects," "expect," "intends," "intend," "anticipate," "anticipates," "plans," "plan," to be uncertain and forward-looking.
Trip to LA
Jack said I'd be welcome to come for a visit, so I
can videotape the unit in operation, enabling others to see what I'm seeing, and
how the testing is done.
The flight is about $350, and we're probably looking at one or two nights hotel
Your help in enabling me to go would be greatly appreciated.
And, as usual,
we're still getting by on donations, so your chipping in is what is keeping us
going as a news organization. (Leaving for Brazil tomorrow [covered by FISL]
but only have a few dollars in my account.)
# # #
What You Can Do
- See Suggestions for How to Get Involved with the Roll-out of Exotic Free Energy
- Pass this on to your friends and favorite news sources.
- Donate to PES Network
to help us keep this news and directory and networking service going.
- Subscribe to our newsletter
to stay abreast of the latest, greatest developments in the free energy
- Let professionals in the renewable energy sector know about the promise of