From Defkalion
Terry Blanton
Posted: Mon Jan 23, 2012 11:34 am
Joined: Fri Jun 24, 2011 6:56 am
Posts: 413
Please note the following Press Release of 23/1/2012 on Invitation for
Indepentent Testing of Hyperion Reactors to appear also in
http://www.defkalion-energy.com/news .
All requests or related questions will be answered only through our e-mail.
DGT
Independent Testing on Hyperion Reactors
Praxen Defkalion Green Technologies Global Ltd. (PDGT) is ready to
further allow third parties to evaluate its core technology: a multi
stage LENR reaction between Nickel and Hydrogen.
PDGT has successfully completed its scientific, technological and
engineering steps necessary to sustain such a reaction with results
exceeding a COP of 20 and with temperatures capable to exceed 650
degrees Celsius.
As it was announced in our November 30th Press Release, a series of
third party tests on Hyperion products have been scheduled to be
performed within the first months of 2012, immediately after our
product’s certification. The present announcement does not refer to
such product tests.
With this announcement, PDGT welcomes further requests from
internationally recognized and reputable scientific and business
organizations interested to conduct their independent tests on “bare”
Hyperion Reactors. Such independent tests have already been scheduled.
Tests will be conducted following mutually agreed protocols based on
the general principles herein.
Test Objectives
• Measurement of excess heat produced by reactions within Hyperion reactors
• Measurement of “bare” Hyperion Reactor COP (i.e. total energy
consumed versus energy produced)
• Measurement of radioactivity during testing
• Measurement of reactor’s stability using its control mechanisms
Type of Testing
Parallel run of two identical Hyperion Reactors connected in parallel
to the same electric energy sources for pre-heating and the same
Hydrogen input source.
The active Reactor #1 will be equipped and prepared ready to trigger
and sustain a steady reaction.
The Reactor #2 will be empty of any powders and with all triggering
and control mechanisms deactivated.
Following a parallel test run of both Reactors for at least 48 hours,
the two Reactors will be switched for a second run (Reactor #1 empty
and Reactor #2 active) in order to authenticate the same results.
Configuration & Measurements
Both Reactors are of the same configuration, placed in the same room
with a 50-60cm distance from each other.
Both reactors will be identically isolated.
Calibrated thermocouples of the same type will be connected inside
each Reactor chamber and attached in the outer surface of each
reactor. All four thermocouples will report their measurements to the
same data logger and PC logging software.
The pressure of the Hydrogen circuit will be monitored and logged with
the same sample rate as the thermocouples logging (i.e. 1/sec).
All electric consuming devises attached to the Reactors will be
measured and logged (Volt and Amps). All electric supplies to the
reactors will be through a UPS unit to avoid grid problems and any
possible fluctuations.
Monitoring of any type of radioactivity from the tested Reactors will
be performed following a 24hours measurement of the testing
environment, to be used as base measurement.
Cooling Method
Cold air may be blown to both Reactors through their isolation if the
maximum safety temperature level as defined in the test protocol is
reached in the active Reactor.
Measurement Methodologies
1. On Heat Energy and COP
Differential Thermal Analysis:
Following the test run, the Temperature/Time logged plots of inner and
outer thermocouples will be used to calculate:
• The difference of integrals between the Temperature/Time logged
plots of inner thermocouple measurements of the two Reactors. This
results to the calculation of the absolute excess heat energy produced
by the active Reactor.
• The difference of integrals between the logged plots of each pair of
inner and outer attached thermocouples attached to each Reactor.
• The difference of the respective energy of the absolute excess heat
energy produced by the active Reactor versus the total electric energy
consumed by the active Reactor (heater and controls). This results in
the COP of the active Reactor.
• Reactors will be weighed before and after testing.
2. On Radiation
A Muller-Geiger tube, calibrated to the environment base radiation
level, will be used to measure alpha and gamma emissions from the
active Reactor.
3. On Stability
The active Reactor’s thermocouples measured temperatures, both inner
and on outer surface, will be maintained stable with a fluctuation of
no more than +/- 10% during the whole testing period, as observed
after the triggering of the reaction in the active Reactor.
4. Other Measurements
No other measurements (e.g. calorimetry), will be performed during
such “bare” Reactor testing.
The existing already released specifications of Hyperion products
relating to system performance, stability, safety and functionality
will not be tested during this series if tests.
Reactor’s Performance
It is expected that tests will conclude a COP in excess of 20
Publication of Protocols and Results
The detailed test protocols will be published by PGDT before any third
party test is performed.
Test results may be published by the independent evaluators in the
media they choose and in our site, jointly.
Following the above, PDGT remains committed to its vision as a pioneer
in LENR technology. Hyperion products can be used as a cheap, clean
and green energy source for households and industrial applications.
PDGT remains committed to the world at large, providing its technology
with responsibility and diligence.
_________________________________________
Praxen Defkalion Green Technologies Global Ltd.
January 23rd 2012