The translation of text is at my blog-now.
Peter
The translation of text is at my blog-now.
Peter
Thanks for the work...
Here it is:
http://egooutpeters.blogspot.f…n-of-successful-heat.html
The protocol (preparation, measurement) seems well described, and it is worth reading for replicators.
Here is the conclusion:
Display More
...
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.
Conclusions
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
Great job Peter Gluck
Translate directly to your language?
1. Download pdf.
2. Go to Google Translate.
3. Click "Translate a file" and upload the pdf.
4. Choose from Russian into your language.
David, I'm ready to comment.
looks like at the end of the run, 268 watts was observed maintaining 1347 deg celcius, which they say exceed a COP of 3! (last graph in the presentation, third slide from the end)
Thank you very much for such great report and experiment!
I am very interested in your opinion - Do you think that some special stimulation is needed to get excess heat? What type of power supply you are using (N57xx - is it DC power supply)? Is signal modulated in some way?
Great, then we can ask some questions in this Thread about this report. Please make tums up /likes on the questions we want respons at.
Thank
David, I'm ready to comment.
Temperature or hydrogen pressure jump might be necessary. DC power supply 300V 5A. No any modulation.
LenzandCoLab,
Very impressive work ! 
1. Can you please publish the raw data ? (CSV or Excel format).
2. Can you rule out thermocouple malfunction ?
3. How long the excess heat last ?
The first thermocouple operated near the clipping range, so there is some possibility that the data has error. I'm interested in seeing how the second thermocouple register the constant temperature while the input power was falling. Thanks.
Thank you Tarun.
1. I have to translate and comment it into English . Hope it will be soon. I don't think you'll be happy with Russian.
2. TC malfunction might be(theoretically). I check this posibility every time. However melted Steel of the reactor(and Kanthal coil) means tempearture above 1500. Second TC at the reactor end(air) also show temperature increasing with some delay- green line at the figure in the presentation. I attached zoomed picture -blue line.
3. See picture attached- time is in seconds.
Clipping range is a problem. Actually I did not expect heat generation started at 1350 and K type of TC limit is 1370 - very close. 20 degrees is not enough for usual regulator settings. Additional 50 degrees and regulator could switch power down enough.So special mode should be programmed near the limit or switch to tungsten-rhenium TC.
Probability of Heat excess is increased significantly if you add hydrogen support to the set up like Chineese or Focardi. Or just got Ni powder from the previous experiment to the reactor(or do it twice). And don't forget to add LiAlH4.
LenzandCoLab: Thank you very much for your great support and effort!
New image you have attached look like it is rather following power line plot. But this could be caused by the fact, that the excess heat is coming from inside, not the heater.
For example it would be good to check, how your digital multimeter interprets failure of a thermocouple so we can be sure that it can't report false data.
If you can perform ash analysis you can be very certain. I am sure it will show interesting things.
I wish you all the best with more experiments and looking forward for new findings!
Your help is extremely valuable.
@LenzandCoLab: How long did your experiment show excess heat? Hours or days?
I ask this because the longer the reaction took place, the higher is the possibility to see changes in the isotopic composition.
Another question: Do you plan to setup your reactor at a official university and spread your knowledge in some physics departments?
Thank you Tarun.
1. I have to translate and comment it into English . Hope it will be soon. I don't think you'll be happy with Russian.
2. TC malfunction might be(theoretically). I check this posibility every time. However melted Steel of the reactor(and Kanthal coil) means tempearture above 1500. Second TC at the reactor end(air) also show temperature increasing with some delay- green line at the figure in the presentation. I attached zoomed picture -blue line.
3. See picture attached- time is in seconds.
Clipping range is a problem. Actually I did not expect heat generation started at 1350 and K type of TC limit is 1370 - very close. 20 degrees is not enough for usual regulator settings. Additional 50 degrees and regulator could switch power down enough.So special mode should be programmed near the limit or switch to tungsten-rhenium TC.
Thanks for the zoomed graph. Probably the second TC was too far away to record the instant changes.
Anyway, this is an important result, and as you said, a better TC and heater will be needed. Probably a fast acting controller too. Fast power down will prevent destruction of the reactor and we can see LENR for longer time.
I hope we will see more results from you soon.
LenzandCoLab said:
"Probability of Heat excess is increased significantly if you add hydrogen support to the set up like Chineese or Focardi. Or just got Ni powder from the previous experiment to the reactor(or do it twice). And don't forget to add LiAlH4."
We discused this reuse of old fuel that was indicated in the Lugano fuel analysis as follows:
http://www.e-catworld.com/2015…-fuel-analysis-axil-axil/
Lugano Fuel Analysis (Axil Axil)
barty: According to the report it was few minutes. But there were lot of runs.
The melting of the reactor tube can be explained by the formation of an alloy of aluminum with nickel and not excess of inner heat. The melting point of this alloy is about of 1200 C degrees. IMHO.
The media is similar, although LENR is not a narrow band of optimal physical parameters. Iron carbon nickel silicon and many other nano particles will suffice. The excitation energy must be dialed in to the frequency of the atoms within the system. Harmonics cause waves, standing waves, and create, what is best thought of as, a molecular cyclotron. Atomic cyclotron resonance is required.
A cyclotron is a type of particle accelerator invented by Ernest O. Lawrence in 1932 in which charged particles accelerate outwards from the center along a spiral path. The particles are held to a spiral trajectory by a static magnetic field and accelerated by a rapidly varying (radio frequency) electric field.
Since that motion is always circular, the cyclotron frequency is given by equality of centripetal force and magnetic Lorentz force. with the particle mass m, its charge q, velocity v, and the circular path radius r, also called gyroradius.
pəˈramədər/
noun technical
plural noun: parameters
a numerical or other measurable factor forming one of a set that defines a system or sets the conditions of its operation.
MATHEMATICS
a quantity whose value is selected for the particular circumstances and in relation to which other variable quantities may be expressed.
STATISTICS
a numerical characteristic of a population, as distinct from a statistic of a sample.
A parameter (from the Ancient Greek παρά, "para", meaning "beside, subsidiary" and μέτρον, "metron", meaning "measure"), in its common meaning, is a characteristic, feature, or measurable factor that can help in defining a particular system. A parameter is an important element to consider in evaluation or comprehension of an event, project, or situation. Parameter has more specific interpretations in mathematics, logic, linguistics, environmental science, and other disciplines.
