Saturday, August 1, 2015


Dear Readers

This is the raw translation of the report published this morning at the official Russian site. I ask those colleagues who see better than me and are good in IT to try to combine my text with the Figures etc. that are

A group of Moscowite researchers, using a reactor of stainless steel with fuel of nickel and lithium aluminum hydride have obtained excess heat release (COP>3) 
at a temperature

I think this paper is especuially imporatnt due to revealing a procedure of previous force hydrogenation of nickel.


Study of the working regimes (modes) of the Ni-H thermogenerator

Lenz@Co Lab Group of researchers from Moscow

Mode of preparation for the regime of increased thermogeneration.

In part 1 it is described the process of preparation for the reaction by sequential cyclic “hydrogenations” of the nickel at temperatures of ~ 450 C above the room temperature. Characteristic time of a cycle is 72 minutes, fig 3.

In part 3 the saturation of nickel with hydrogen is performed by repeated heating during 10 hours to T= 1150 C, It is shown that the regime of hydrogenation is starting at temperatures higher than 200 C.
It exists a process of inverse hydrogenation of nickel. At room temperature this leads to the decrease of the COP from ~2.4 to 1.6… 1.2 see 3’
Conclusion: for preparation to the mode of increased thermal generation it is necessary at the lower limit one times to perform a hydrogenation cycle of nickel for 3-5 hours at a temperature of ~ 500 C.or to use the procedure described in 3’

The process of initializing the mode of increased thermogeneration

The process of initialization is attained by a jump of temperature or pressure, Fig. 4 or Fig. 5 respectively in 1’.
For the evaluation of the parameters of the modification of the temperature of the fuel mixture, necessary for the initialization of the regime of thermogeneration it was built a hermetically closed reactor from a tube of nickel having thin walls (0.2 mm)

Features of the construction and mode of construction of the Parkhomov type reactor.

The construction and technology of building the ceramic reactor is described in 2’ and 4’. It is important to mention that the ceramic tube should be gas-tight. It can be remarked that during the process of hardening of the cementing composition it can take place the process of hydrogenation of the nickel in the reactor. The process of activation of the lithium aluminum hydride must be done in a hermetically closed reactor.

Scheme of the experiment with one thermocouple (air) for
evaluation of the parameters of the initializing of the regime of thermogeneration.

Reactor from nickel tube with wall thickness of 0.2 mm before the experiment, charge nickel 0.2 g. lithium aluminum hydride 0.02 g

Process of hydrogenation of nickel
Temperature, deg C, Time. seconds

Initialization of the mode of thermogeneration with the destruction of the reactor during the transition 900- 1000 deg C
Power Watt 400…Transition 800-900 deg C

Destroyed reactor.

Scheme of the experiment with two thermocouples

Source of the seriesN57xx used in combination with the computer on an USB channel. Multimeter UT61Bconnecte with ports RS 232

Reactor from stainless steel with thermocouple of the K type

The tube is made of stainless steel 8/4/70 as plugs M5 screws, M5 thread is cut in the tube. Screws made in the laser repair shop
Thermocouple wires are welded to the tube.

Reactor assembled with heater.

There are used heaters of wires Nichrom 0.5 mm and Fehral 0.6 mm.

Reactor and heater assembled.

The second thermocouple is located at the end of the reactor.

The setup assembled

The composition of the mixture in the reactor: 
0.07 g LiAl H4 + 1g nickel (previously “hydrogenated” + 0.3 g nickel (powder PNK –OT2) It is usedviously hydrogenated nickel with a part of the nickel tube.

It is shown the thermocouple and the dosimeter in function.

The setup in function.

Conversion to the mode of thermogeneration (hours)

The interval 120 – 200 deg. Is almost 2 hours, then heating to 600 C approx. 2.5 hours. In the zone of 750C it is seen a critical point for steel, its heat capacity is increasing.

Conversion 1250-1300 C in time (seconds)

Conversion to the mode of increased termogeneration (during interval of 1300-1350 C.

Initiation of mode of increased thermogeneration with the destruction of the heater in time, sec.

The destroyed heater

Evaluation of COP. 
Calibration with empty reactor. Evaluation of average power of heater and temperature of the reactor in the increased thermogeneration mode: 268 W and >1347C
COP >3 Mode of thermogeneration in time, sec.


The initializing of the regime of thermogeneration for the reactor with thin walls (0.2 mm) can take place already at 800-900 C

The rate of the temperature in the heater (air) for initialization of the mode of thermogenaration can be greater than 0.5 deg/second.

The mode of thermogeneration for the reactor with thin walls
Can be initialized at the temperature of 1350 C.

Estimation of COP (1347C) >3


1. Large excess heat production in Ni-H systems S. FOCARDI(1), V. GABBANI(2), V. MONTALBANO(2), F. PIANTELLI(2) and S. VERONESI(2), 1998

2. Parkhomov A.G Investigation of analog of the high temperature Rossi generator Journal of Unconventional Science
2015, v 3,

3. Parkhomov AG Results of testing of the new variant of the Rossi type thermogenerator/ Journal of Unconventional Science 2015 v 3, No 8 234-38

4. To Russia with Love.doc XcuGDPNn5Oc787RQ/edit?hc_location=ufi


  1. Comment on Andrea's blog today James Rovnak
    Your comment is awaiting moderation.
    August 1st, 2015 at 6:36 AM
    Andrea I liked your comment to Hank Mills & his efforts to help the engineer/physicist researchers. me 356 is running another test for Bob Greenyer & it has been going on for several days now. Great experimenter that me356 is. I think they lack one thing this time & that is a B field that oscillates bidirectionally along the axis of the fuel element like Lugano did. Currently it is unidirectional & has not stimulated much LENR as of late with operation in the 1000 C range. I think the SPPs are kept local & building with the bidirectional operation, only you would truly know. I still think there formation on the surface of the Ni & in the Li plasma are key to your successful process – is my presumption. They now measure temperature optically at both ends of element & by TC at the center & have optical track of the hot spot in the element which is probably local LENR region, just maybe! This is a great time for these experimenters as well as I. I love to see their novel ideas take shape & their determination to replicate & quickly. It warms ones heart to see the multinational effort with so much War in the world right now. Finally nations working together again for mankind’s benefit, no less. They are making some nice changes on the fly today to further investigate process. Well I’m back to the live video to see what’s happening this Saturday morning.

    Some nice videos on BBC Atom1, Atom2 & Atom3 of general interest to all & very well done. Just do a Google search for Atom1 2 or 3!
    Cheers Jim
    Good luck with that new innovative idea Andrea!

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