Half a football field of safe SHT
technology could equal Fukushima plant
Demonstration of the reactor, May 16, 2014
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Solar Hydrogen Trends
On July 8, I received the following from
Solar Hydrogen Trends, composed by the inventor, Konstantin
Balakiryan:
- Ladies and gentlemen,
- Thousands of laboratories and research centers are working on
the hydrogen problem. They will need another 20-30 years to come
within reach of this problem. Even then they will only be able to
repeat our results. This is understandable, because we know that 1
liter of water can only get 1 kg of hydrogen and not a single gram
more.
- Solar Hydrogen Trends has achieved this results today. Hardly
anyone can ever surpass performance of "Symphony 7A". Can you
imagine device with the size of a 2 medium suitcases produces about
half a ton hydrogen per day. About 10,000 such " suitcase bags" can
produce as much energy as the infamous Japanese Fukushima nuclear
power plant (4.7GW), which was one of the largest power plants in
the world. Put another way, in terms of overall size, we need half a
football field (2676 square meters), 20-30 feet high, to produce as
much energy as the Fukushima plant. [Compare that to the 3.5 million
square meters (865 acres) that the Fukushima Daiichi structure
covers
[1] -- 1600 times more.]
- A few thousand of these same "suitcases" can easily replace
dangerous oil platforms of the Gulf of Mexico right off the coast of
the United States. The ratio of input - output from "Symphony 7A"
(COP) is much greater than 1,000.
- To surpass such results it can happen only in one condition, if
my hypothesis are confirmed that when low-energy nuclear reaction
(LENR) takes place, there is an exponential decrease of energy
consumed by an external source.
- If this Hypothesis is confirmed, it would be the breakthrough
and as equally important as the discovery of superfluidity and
superconductivity in in "Cryogenics".
- Konstantin Balakiryan PhD, Professor.
- Also,
- National Renewable Energy Laboratory in their calculations are
stating that average driving range for regular cars is 12,000 miles
per year. Cars with an engine size 2.5-3.5 litters are consuming 1
Kg of hydrogen per 60 miles. Thus, one car requires 200 kg of
hydrogen per year, or 0.55 kg per day.
- Our hydrogen reactor Symphony-7A can produce enough hydrogen in
24 hours to power your car for more than two years.
www.pureenergysystems.com
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