Cold nuclear fusion

by E.N. Tsyganov
(UA9 collaboration) University of Texas Southwestern
Medical Center at Dallas, Texas, USA

Direct Download

Abstract
Recent accelerator experiments on fusion of various elements have clearly demonstrated that the effective cross-sections of these reactions depend on what material the target particle is placed in. In these experiments, there was a significant increase in the probability of interaction when target nuclei are imbedded in a conducting crystal or are a part of it. These experiments open a new perspective on the problem of so-called cold nuclear fusion.

PACS.: 25.45 – deuterium induced reactions
Submitted to Physics of Atomic Nuclei/Yadernaya Fizika in Russian

Introduction
Experiments of Fleischmann and Pons made about 20 years ago [1], raised the question about the possibility of nuclear DD fusion at room temperature. Conflicting results of numerous experiments that followed, dampened the initial euphoria, and the scientific community quickly came to common belief, that the results of [1] are erroneous. One of the convincing arguments of skeptics was the lack in these experiments of evidence of nuclear decay products. It was assumed that “if there are no neutrons, therefore is no fusion.” However, quite a large international group of physicists, currently a total of about 100-150 people, continues to work in this direction. To date, these enthusiasts have accumulated considerable experience in the field. The leading group of physicists working in this direction, in our opinion, is the group led by Dr. M. McKubre [2]. Interesting results were also obtained in the group of Dr. Y. Arata [3]. Despite some setbacks with the repeatability of results, these researchers still believe in the existence of the effect of cold fusion, even though they do not fully understand its nature.  Some time ago we proposed a possible mechanism to explain the results of cold fusion of deuterium [4]. This work considered a possible mechanism of acceleration of deuterium contaminant atoms in the crystals through the interaction of atoms with long-wavelength lattice vibrations in deformed parts of the crystal. Estimates have shown that even if a very small portion of the impurity atoms (~105) get involved in this process and acquires a few keV energy, this will be sufficient to describe the energy released in experiments [2].  This work also hypothesized that the lifetime of the intermediate nucleus increases with decreasing energy of its excitation, so that so-called “radiation-less cooling” of the excited nucleus becomes possible. In [5], we set out a more detailed examination of the process.  Quite recently, a sharp increase of the probability of fusion of various elements was found in accelerator experiments for the cases when the target particles are either imbedded in a metal crystal or are a part of the conducting crystal. These experiments compel us to look afresh on the problem of cold fusion.

Recent experiments on fusion of elements on accelerators
For atom-atom collisions the expression of the probability of penetration through a Coulomb barrier for bare nuclei should be modified, because atomic electrons screen the repulsion effect of nuclear charge. Such a modification for the isolated atom collisions has been performed in H.J. Assenbaum and others [6] using static Born-Oppenheimer approximation. The experimental results that shed further light on this problem were obtained in relatively recent works C. Rolfs [7] and K. Czerski [8]. Review of earlier studies on this subject is contained in the work of L. Bogdanova [9]. In these studies a somewhat unusual phenomenon was observed: the sub-barrier fusion cross sections of elements depend strongly on the physical state of the matter in which these processes are taking place. Figure 1 (left) shows the experimental data [8], demonstrating the dependence of the astrophysical factor S(E) for the fusion of elements of sub-threshold nuclear reaction on the aggregate state of the matter that contains the target nucleus 7Li. The same figure (right) presents similar data [7] for the DD reaction, when the target nucleus was embedded in a zirconium crystal. It must be noted that the physical nature of the phenomenon of increasing cross synthesis of elements in the case where this process occurs in the conductor crystal lattice is still not completely clear.

Figure 1. Up – experimental data [8], showing the energy dependence of the S-factor for sub-threshold nuclear reaction on the aggregate state of matter that contains the nucleus 7Li.  Down – the similar data [7] for the reaction of DD, when the target nucleus is placed in a crystal of zirconium. The data are well described by the introduction of the screening potential of about 300 eV.

The phenomenon is apparently due to the strong anisotropy of the electrical fields of the crystal lattice in the presence of free conduction electrons. Data for zirconium crystals for the DD reactions can be well described by the introduction of the screening potential of about 300 eV. It is natural to assume that the corresponding distance between of two atoms of deuterium in these circumstances is less than the molecular size of deuterium. In the case of the screening potential of 300 eV, the distance of convergence of deuterium atoms is ~510ˆ12 m, which is about an order of magnitude smaller than the size of a molecule of deuterium, where the screening potential is 27 eV. As it turned out, the reaction rate for DD fusion in these conditions is quite sufficient to describe the experimental results of McKubre and others [2]. Below we present the calculation of the rate process similar to the mu-catalysis where, instead of the exchange interaction by the muon, the factor of bringing together two deuterons is the effect of conduction electrons and the lattice of the crystal.

Calculation of the DD fusion rate for “Metal-Crystal” catalysis
The expression for the cross section of synthesis in the collision of two nuclei can be written as

where for the DD fusion

Here the energy E is shown in keV in the center of mass. S(E) astrophysical factor (at low energies it can be considered constant), the factor 1/E reflects de Broglie dependence of cross section on energy. The main energy dependence of the fusion is contained in an expression

that determines the probability of penetration of the deuteron through the Coulomb barrier. From the above expressions, it is evident that in the case of DD collisions and in the case of DDμcatalysis, the physics of the processes is the same. We use this fact to determine the probability of DD fusion in the case of the “metal-crystalline” DD-catalysis.  In the case of DDμ- catalysis the size of the muon deuterium molecules (ion+) is ~5×10ˆ13m. Deuterium nuclei approach such a distance at a kinetic energy ~3 keV. Using the expression (1), we found that the ratio of σ(3.0 keV)/σ(0.3 keV) = 1.05×10ˆ16. It should be noted that for the free deuterium molecule this ratio [ σ(3.0keV)/σ(0.03keV)] is about 10ˆ73.  Experimental estimations of the fusion rate for the (DDμ)+ case presented in the paper by Hale [10]:

Thus, we obtain for the “metal-crystalline” catalysis DD fusion rate (for zirconium case):

Is this enough to explain the experiments on cold fusion? We suppose that a screening potential for palladium is about the same as for zirconium. 1 cmˆ3 (12.6 g) of palladium contains 6.0210ˆ23(12.6/106.4) = 0.710ˆ23 atoms. Fraction of crystalline cells with dual (or more) the number of deuterium atoms at a ratio of D: Pd ~1:1 is the case in the experiments [2] ~0.25 (e.g., for Poisson distribution). Crystal cell containing deuterium atoms 0 or 1, in the sense of a fusion reaction, we consider as “passive”. Thus, the number of “active” deuterium cells in 1 cmˆ3 of palladium is equal to 1.810ˆ22. In this case, in a 1 cmˆ3 of palladium the reaction rate will be

this corresponds to the energy release of about 3 kW. This is quite sufficient to explain the results of McKubre group [2]. Most promising version for practical applications would be Platinum (Pt) crystals, where the screening potential for d(d,p)t fusion at room temperature is about 675 eV [11]. In this case, DD fusion rate would be:

The problem of “nonradiative” release of nuclear fusion energy
As we have already noted, the virtual absence of conventional nuclear decay products of the compound nucleus was widely regarded as one of the paradoxes of DD fusion with the formation of 4He in the experiments [2]. We proposed the explanation of this paradox in [4]. We believe that after penetration through the Coulomb barrier at low energies and the materialization of the two deuterons in a potential well, these deuterons retain their identity for some time. This time defines the frequency of further nuclear reactions. Figure 2 schematically illustrates the mechanism of this process. After penetration into the compound nucleus at a very low energy, the deuterons happen to be in a quasi-stabile state seating in the opposite potential wells. In principle, this system is a dual “electromagnetic-nuclear” oscillator. In this oscillator the total kinetic energy of the deuteron turns into potential energy of the oscillator, and vice versa. In the case of very low-energy, the amplitude of oscillations is small, and the reactions with nucleon exchange are suppressed.

Fig. 2. Schematic illustration of the mechanism of the nuclear decay frequency dependence on the compound nucleus 4He* excitation energy for the merging deuterons is presented. The diagram illustrates the shape of the potential well of the compound nucleus. The edges of the potential well are defined by the strong interaction, the dependence at short distances  Coulomb repulsion.

The lifetime of the excited 4He* nucleus can be considered in the formalism of the usual radioactive decay. In this case,


Here ν is the decay frequency, i.e., the reciprocal of the decay time τ. According to our hypothesis, the decay rate is a function of excitation energy of the compound nucleus E. Approximating with the first two terms of the polynomial expansion, we have:

Here ν° is the decay frequency at asymptotically low excitation energy. According to quantum-mechanical considerations, the wave functions of deuterons do not completely disappear with decreasing energy, as illustrated by the introduction of the term ν°. The second term of the expansion describes the linear dependence of the frequency decay on the excitation energy. The characteristic nuclear frequency is usually about 10ˆ22  sˆ-1. In fusion reaction D+D4He there is a broad resonance at an energy around 8 MeV. Simple estimates by the width of the resonance and the uncertainty relation gives a lifetime of the intermediate state of about 0.810ˆ22 s. The “nuclear” reaction rate falls approximately linearly with decreasing energy. Apparently, a group of McKubre [2] operates in an effective energy range below 2 keV in the c.m.s. Thus, in these experiments, the excitation energy is at least 4×10ˆ3 times less than in the resonance region. We assume that the rate of nuclear decay is that many times smaller. The corresponding lifetime is less than 0.3×10ˆ18 s. This fall in the nuclear reaction rate has little effect on the ratio of output decay channels of the compound nucleus, but down to a certain limit. This limit is about 6 keV. A compound nucleus at this energy is no longer an isolated system, since virtual photons from the 4He* can reach to the nearest electron and carry the excitation energy of the compound nucleus. The total angular momentum carried by the virtual photons can be zero, so this process is not prohibited. For the distance to the nearest electron, we chose the radius of the electrons in the helium atom (3.1×10ˆ11 m). From the uncertainty relations, duration of this process is about 10ˆ-19 seconds. In the case of “metal-crystalline” catalysis the distance to the nearest electrons can be significantly less and the process of dissipation of energy will go faster. It is assumed that after an exchange of multiple virtual photons with the electrons of the environment the relatively small excitation energy of compound nucleus 4He* vanishes, and the frequency of the compound nucleus decaying with the emission of nucleons will be determined only by the term ν°. For convenience, we assume that this value is no more than 10ˆ12-10ˆ14 per second. In this case, the serial exchange of virtual photons with the electrons of the environment in a time of about 10ˆ-16 will lead to the loss of ~4 MeV from the compound nucleus (after which decays with emission of nucleons are energetically forbidden), and then additional exchange will lead to the loss of all of the free energy of the compound nucleus (24 MeV) and finally the nucleus will be in the 4He ground state.  The energy dissipation mechanism of the compound nucleus 4He* with virtual photons, discussed above, naturally raises the question of the electromagnetic-nuclear structure of the excited compound nucleus.

Fig. 3. Possible energy diagram of the excited 4He* nucleus is presented.

Figure 3 represents a possible energy structure of the excited 4He* nucleus and changes of its spatial configuration in the process of releasing of excitation energy. Investigation of this process might be useful to study the quark-gluon dynamics and the structure of the nucleus.

Discussion
Perhaps, in this long-standing history of cold fusion, finally the mystery of this curious and enigmatic phenomenon is gradually being opened. Besides possible benefits that the practical application of this discovery will bring, the scientific community should take into account the sociological lessons that we have gained during such a long ordeal of rejection of this brilliant, though largely accidental, scientific discovery. We would like to express the special appreciation to the scientists that actively resisted the negative verdict imposed about twenty years ago on this topic by the vast majority of nuclear physicists.

Acknowledgements
The author thanks Prof. S.B. Dabagov, Dr. M. McKubre, Dr. F. Tanzela, Dr. V.A. Kuzmin, Prof. L.N. Bogdanova and Prof. T.V. Tetereva for help and valuable discussions. The author is grateful to Prof. V.G. Kadyshevsky, Prof. V.A. Rubakov, Prof. S.S. Gershtein, Prof. V.V. Belyaev, Prof. N.E. Tyurin, Prof. V.L. Aksenov, Prof. V.M. Samsonov, Prof. I.M. Gramenitsky, Prof. A.G. Olshevsky, Prof. V.G. Baryshevsky for their help and useful advice. I am grateful to Dr. VM. Golovatyuk, Prof. M.D. Bavizhev, Dr. N.I. Zimin, Prof. A.M. Taratin for their continued support. I am also grateful to Prof. A. Tollestrup, Prof. U. Amaldi, Prof. W. Scandale, Prof. A. Seiden, Prof. R. Carrigan, Prof. A. Korol, Prof. J. Hauptmann, Prof. V. Guidi, Prof. F. Sauli, Prof. G. Mitselmakher, Prof. A. Takahashi, and Prof. X. Artru for stimulating feedback. Continued support in this process was provided with my colleagues and the leadership of the University of Texas Southwestern Medical Center at Dallas, and I am especially grateful to Prof. R. Parkey, Prof. N. Rofsky, Prof. J. Anderson and Prof. G. Arbique. I express special thanks to my wife, N.A. Tsyganova for her stimulating ideas and uncompromising support.

References
1. M. Fleischmann, S. Pons, M. W. Anderson, L. J. Li, M. Hawkins, J. Electro anal. Chem. 287, 293 (1990).
2. M. C. H. McKubre, F. Tanzella, P. Tripodi, and P. Haglestein, In Proceedings of the 8th International Conference on Cold Fusion. 2000, Lerici (La Spezia), Ed. F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, 2001), p 3; M. C. H. McKubre, In Condensed Matter Nuclear Science: Proceedings Of The 10th International Conference On Cold Fusion;  Cambridge, Massachusetts, USA 21-29 August, 2003, Ed by P. L. Hagelstein and S. R. Chubb, (World Sci., Singapore, 2006). M. C. H. McKubre, “Review of experimental measurements involving dd reactions”, Presented at the Short Course on LENR for ICCF-10, August 25, 2003.
3. Y. Arata, Y. Zhang, “The special report on research project for creation of new energy”, J. High Temp. Soc. (1) (2008).
4. E. Tsyganov, in Physics of Atomic Nuclei, 2010, Vol. 73, No. 12, pp. 1981–1989. Original Russian text published in Yadernaya Fizika, 2010, Vol. 73, No. 12, pp. 2036–2044.
5. E.N. Tsyganov, “The mechanism of DD fusion in crystals”, submitted to IL NUOVO CIMENTO 34 (4-5) (2011), in Proceedings of the International Conference Channeling 2010 in Ferrara, Italy, October 3-8 2010.
6. H.J. Assenbaum, K. Langanke and C. Rolfs, Z. Phys. A – Atomic Nuclei 327, p. 461-468 (1987).
7. C. Rolfs, “Enhanced Electron Screening in Metals: A Plasma of the Poor Man”, Nuclear Physics News, Vol. 16, No. 2, 2006.
8. A. Huke, K. Czerski, P. Heide, G. Ruprecht, N. Targosz, and W. Zebrowski, “Enhancement of deuteron-fusion reactions in metals and experimental implications”, PHYSICAL REVIEW C 78, 015803 (2008).
9. L.N. Bogdanova, Proceedings of International Conference on Muon Catalyzed Fusion and Related Topics, Dubna, June 18–21, 2007, published by JINR, E4, 15-2008-70, p. 285-293
10. G.M. Hale, “Nuclear physics of the muon catalyzed d+d reactions”, Muon Catalyzed Fusion 5/6 (1990/91) p. 227-232.
11. F. Raiola (for the LUNA Collaboration), B. Burchard, Z. Fulop, et al., J. Phys. G: Nucl. Part. Phys.31, 1141 (2005); Eur. Phys. J. A 27, s01, 79 (2006).

by E.N. Tsyganov
(UA9 collaboration) University of Texas Southwestern
Medical Center at Dallas, Texas, USA

Direct Download

3,560 comments to Cold nuclear fusion

  • Dear ing. Rossi
    when you have 5 minutes of free time, have fun reading this.

    http://www.agoravox.it/E-Cat-balzo-nella-nuova-civilta.html

    Best regards and Thank you.

  • […] per dirlo. Al momento sappiamo solo quanto lo stesso ingegnere della Brianza riferisce sul blog Journal of Nuclear Physics: l’E-Cat funziona. A poco sono valsi i tentativi di corteggiamento da parte di scienziati e […]

  • Ecat-ering

    Salve Rossi , spero di vederla in Italia prima delle feste , se cosi non fosse Le auguro buon Natale e buone feste a lei e a tutti i suoi collaboratori ed un grazie ancora a Fioravanti.

  • Andrea Rossi

    Dear Kevin:
    Your pre-order has been accepted.
    Warm Regards,
    A.R.

  • Kevin

    the ecat inquiry submition form is not working correctly.
    it says my email is invalid and use alpha chars only
    kevinehise@gmail

    best regards,
    kevin

  • Andrea Rossi

    Dear Stefano:
    Yes.
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Francesco Toro:
    It’s the time normally due for this kind of things.
    Warm Regards,
    A.R.

  • Francesco Toro

    Dear ing. Rossi
    Whenever you speak of E-Cat from 10 kW we communicate that the procedures relating to permits for marketing are minimum 2 years long. Now I’m wondering if this problem depends on the documentation to be submitted to agencies (and why I think it may depend on yourself) or from the bureaucracy in plaster (for art?).
    All of us are impatient to get the little cat in the House and look confident your OK.
    Thanks for the reply.
    F.T.

  • Andreas

    Thank you!!
    __
    P.S.

    “”Your pre-order is not binding, you have not to send money; when we will be ready to put the small E-Cats on the market, you will be advised and we will communicate the price of everything: at that point you will be free to cancel or to confirm the order.””
    – That’s a fair deal. Although I don’t think anybody will cancel the order when the home ecats are available and working.

  • Stefano

    Egregio ingegner Rossi,
    Il seguente link:
    http://ecat.com/ecat-products/ecat-home
    è il sito per la pre adesione all’acquisto della sua invenzione?
    Quindi è attendibile e è possibile prenotarsi per acquistare il suo apparecchio?

  • Andrea Rossi

    Dear Henrik:
    Please contact our North Europe Branch:
    info@hydrofusion.com
    Warm Regards,
    A.R.

  • Henrik.

    Hello Dr. Rossi

    Congratulations to your wonderful invention!

    I run a business in Sweden and is very interested in your machine.
    when do you think I as an entrepreneur can buy a pair of 300kW plant to heat my oven to about 220 degrees Celsius.
    is it already in 2012 or do I have to wait longer?

    Sincerely,

    Henrik.

  • Andrea Rossi

    Dear M.B.:
    Your pre-order is not binding, you have not to send money; when we will be ready to put the small E-Cats on the market, you will be advised and we will communicate the price of everything: at that point you will be free to cancel or to confirm the order.
    Warm Regards,
    A.R.

  • M.B.

    Sorry about my doubt, had to ask before pre-ordering (Ni+H proton is pretty clean, if Fe was being created as well other things might show up)

    Please accept a pre-order for the 10 kw unit @ 4.000 €

    One thing that I have to ask, the unit must be re-fuelled every 6 (?) months? At what cost?

    Best regards

    p.s. you can read my name on the e-mail but if need be I can put it here as well

  • Andrea Rossi

    Dear Andreas:
    Accepted,
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear M.B.:
    Fe was due by released from the internal walls of the reactor, which is made by stainless steel.
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Claud:
    Accepted
    Warm Regards,
    A.R.

  • Claud

    Dear Andrea Rossi, you have all my data. I wish to be enlisted for the 10 kW device.
    Good luck to you and me.

    Claudio Rossi

  • Hergen

    Perhaps an interesting method for the nickel preparation:

    Research reveals shocking new way to create nanoporous materials: Research demonstrates simple, scaleable method with realistic capability of industrial cross-over

    http://www.nanotech-now.com/news.cgi?story_id=43958

  • M.B.

    Could you comment on iron being present on used fuel? (I seem to have read about it somewhere)

    Furthermore:

    Ni=28
    Cu=29
    Fe=26 (and supposedly one of the stablest atoms)

    Any traces of Cobalt (Co=27)?

    Most would be stable (59) and/or reduced half-life, but some Cobalt 60 would be a pain.

    Best regards

  • Andreas

    Dear Mr Rossi, is there yet some space for me on the non-binding waiting list?

    http://ecat.com/ecat-products/ecat-home
    here: the field ‘company’ is required also for home units. We are a private household. Shall I just leave that field out?

    Yours Andreas

  • Andrea Rossi

    WARNING:
    WE CONFIRM THAT DR DAVID BIANCHINI, WHO MADE THE MEASUREMENTS OF RADIATIONS FROM OUR REACTORS TO THE EXTERNAL ENVIRONMENT, HAS BEEN PAID FROM US AS AN INDIPENDENT CONSULTANT, SPECIALIZED IN RADIATIONS CONTROLS, WITH A HUGE EXPERIENCE IN MEASURING RADIATIONS, WITH A DOCTORATE IN PHYSICS FROM THE UNIVERSITY OF BOLOGNA. DR. BIANCHINI IS NOT AN EMPLOYEE OF THE UNIVERSITY OF BOLOGNA, AND IS NOT AN EMPLOYEE OF THE PHYSICS DEPARTMENT. ANY DECLARATION OF OURS THAT MADE THINK THAT DR BIANCHINI IS AN EMPLOYEE OF THE UNIVERSITY OF BOLOGNA IS A MISUNDERSTANDING.
    DR ANDREA ROSSI

  • Andrea Rossi

    Dear Todd Burkett:
    The puppett snake is giving the best of himself: the puppetteers are getting more worried as we advance along our path and are pouring money in this asshole. Just let him write, the more he writes, the more gives us the gauge of the worrying level of the puppetteers who pay this corrupted “journalist” .
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Axle:
    You are right,
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Barney:
    We have to obtain the authorizations plant by plant, do net exist a generalistic authorization. For the industrial plants the authorizations are possible, for the household units we need a more complex certification, because in this case we do not have plants operated by specialists.
    Warm Regards,
    A.R.

  • Mr. Rossi, just a quick clarification. You wrote:
    “AT THE MOMENT OUR E-CATS ARE FOR SALE ONLY FOR WHAT CONCERNS 1 THERMAL MW PLANTS, BECAUSE THE 10 KW E-CATS ARE NOT YET CERTIFIED.”

    This means you have full certifications for 1 MW plants? Also from the “nuclear” point of view (there ought to be some gammas, at the end of the story!)? I mean: it’s safe for you and your company to sell 1 MW plants to private customers?

    Thanks in advance for your reply.

    Cheers,

    Barney

  • Axle

    Andrea Rossi

    I live near Detroit, Michigan and have been following with great interest.
    Am 57 years old and hope that I have accumulated some bit of wisdom over time.

    Mr. Rossi SIR. The way I see things developing. You are bound to go down in history as one of the GREATEST inventors of all time. Please SIR, Please consider ‘changing tack’. I believe there are great resources available to you here in the USA. Please consider the help and resources that have been (as I understand) offered to you by the Great State of Massachusetts through the honorable Senator Bruse Tarr. I believe you will be able to realize your goals, and much more, should you decide to ‘partner’ in a such a way.

    Thank you for consideration.

    Free and thoughful citizen of the USA

  • Todd Burkett

    Mr. Rossi, perhaps we should designate this other company ” the E-snake” I foresee The E-cat eating the “E-snake” for lunch! Although I suspect it won’t be very nutritious! LOL

  • Andrea Rossi

    WARNING: SOMEBODY IS ON THE ROAD SAYING THEY HAVE SUCCEEDED IN STEALING OUR TECHNOLOGY ( WHOSE PATENT HAS BEEN GRANTED IN ITALY AND IS PENDING IN THE WORLD) AND ARE TRYING TO SELL A MOCK UP SAYING IT IS AN UPGRADED COPY OF THE E-CAT. ATTENTION: NOBODY HAS EVER COPIED OUR TECHNOLOGY. PROBABLY THIS IS A STUNT AIMED TO COLLECT MONEY FROM UNCAUTIOUS BUYERS. WE JUST WANT TO MAKE EVERYBODY WELL CONSCIOUS OF THE FACT THAT WE ARE TOTALLY UNRELATED TO ANY PRODUCT THAT HAS NOT BEEN SPECIFICALLY MARKED BY US AND THAT HAS NOT OUR CERTIFICATION. AT THE MOMENT OUR E-CATS ARE FOR SALE ONLY FOR WHAT CONCERNS 1 THERMAL MW PLANTS, BECAUSE THE 10 KW E-CATS ARE NOT YET CERTIFIED.
    WARM REGARDS,
    A.R.

  • Andrea Rossi

    Dear Bruce:
    We cannot give information about the charge of the reactors.
    Warm Regards,
    A.R.

  • Bruce

    Mr. Rossi,

    I have been following your progress for some time and am very excited about your invention. Have you ever considered using a Nickel Aerogel as your nickel source? My understanding is the the aerogel is basically like porous solidified micro-powder and could produce a much higher surface area/volume ratio (provided the manufacturing of the aerogel is not too expensive).

    Bruce

  • Andrea Rossi

    Dear Ecat-ering:
    1- your pre-order has been accepted
    2- No.
    Warm Regards,
    A.R.

  • Salve Rossi , anche noi abbiamo inviato un preordino ma non abbiamo avuto risposta, ho chiesto anche se potevamo fare degli incontri per divulgare l’esperienza dell’Ecat , incontri nella mia sala corsi , per far ciò ho bisogno di inserire nel mio sito l’ecat con foglio raccolta prenotazioni per limitare a 25-30 persone gli incontri.
    Altra domanda è possibile che i greci vi abbiano copiato ?
    Saluti e buon lavoro

  • Andrea Rossi

    Dear Pietro:
    1- we will communicate the start of the sales of the 10 kW E-Cats only after getting the necessary authorizations and the granted patents. 2- Probably not, you are very subtle.
    Warm Regards,
    A.R.

  • Pietro

    Egregio Ingegnere,

    ho fatto la mia prenotazione qualche giorno fa.
    Mi interesserebbe anche entrare nel business come
    reseller per cui mi sono accodato anche con questa
    richiesta.

    Due domande:

    1) Quando sapremo qualcosa in merito alle prenotazioni ?
    2) Se fosse approdato a questa impresa senza i suoi trascorsi,
    ritiene che avrebbe avuto la necessaria “cinica lucidità”
    per affrontare tutto questo ?

    Con i migliori auguri,

    Pietro

  • Andrea Rossi

    Dear Helmut H.
    Yes, your pre-order has been received and accepted.
    Warm Regards,
    A.R.

  • Helmut H.

    Dear Dr. Rossi,
    do the people who wrote an email to be put on the preorder-list, receive a confirmation?
    I’m asking, because i haven’t received a confirmation and i’m wondering, if this means i’m not put on the list, or if this is normal because of your tremendous amount of work?

    Best regards,
    Helmut H.

  • Andrea Rossi

    Dear Bill Armstrong:
    Done,
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Bob Norman:
    I respect the work of all my competitors, but the one you gave the reference of is totally wrong from my point of view and has nothing to do with my work. If this thing of this competitor really works ( but I believe not) we will find a competitor on the market with real products, as we are producing, while, if it does not work, as I suppose, there is nothing worth to talk about.
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Albert Ellul:
    I prefer not, I want to analyze a neutral reaction of the public to make projections. This is a very important study, not just a collection of pre-orders.
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Giovanni:
    1- yes
    2- yes
    Warm Regards,
    A.R.

  • Giovanni

    Re my previous post please correct: “a large amount of houses”
    Thanks
    Giovanni

  • Giovanni

    Dear Ing. Rossi
    a tipical house has available an electric power of 3 kW (a very large amount, I think). Assuming a 30% of efficiency in converting 10 kW thermal, you can generate 3 kW elctric. So the standard size of your small device seems to be appropriate. Two questions, please:
    1) will the 10 kW e-cat capable of providing BOTH thermal and at the same time 3kW electrical power?
    2)are you thinking of more powerful household devices, to fit, for example, a 6 kW electric power need? (20 kW e-cat?)
    Many thanks. I can see that everything from you is moving at an increased speed, I am watching your progresses with increasing attention.
    Best regards
    Giovanni

  • Albert Ellul

    Dear Andrea,

    We all know how busy you must be. Take care of your health. May I make one suggestion: Would it be possible to include a counter on you website showing the number of people that have confirmed the pre-order for the 10KW heater? Just thinking.

  • Bob Norman

    Dear Mr Rossi

    A scientist by the name of Brian Ahern has a patent application published that looks most interesting in defining LENR origins. Here is a link:
    http://www.sumobrain.com/patents/wipo/Amplification-energetic-reactions/WO2011123338A1.pdf

    Do you think this is close to what may be happening.

    Great to hear about your new customer.

    Regards,
    Bob

  • Bill Armstrong

    Please put me on your 10 K list. I am skeptical, but Pragmatic. Bill

  • Andrea Rossi

    Dear JOBI:
    None of the box: I want that this technology gives the maximum it can to the Mankind.
    Warm Regards,
    A.R.

  • JOBI

    Dear Mister Rossi,

    Congratulations on your invention and the succes of it!

    Perhaps a personal question:
    Being a scientist but also a businessman, what would be your priority?
    A)Changing the world as we know it or B) becoming famous and rich?

    Kind regards,

    Jobi

  • Andrea Rossi

    Dear Rick Meisinger:
    I have not time to think to the skeptics. I have to give all my time to the Customers. I am very tired of this skeptics stuff, and of proposal of new tests which are just insults to the serious work made from the high level professionals who worked in the tests already made. Again: somebody wants to make tests? Buy a plant, do all the tests they want. I absolutely have not time, not in this period, I am working 16 hours per day to make all I have to do for the real problem, which is to satisfy the tests that our Customers will make before paying the plants.
    Warm Regards,
    A.R.

  • Andrea Rossi

    Dear Fulvia:
    Well, I hope you too.
    1- I work mainly in the USA, but also in Europe, therefore in Italy.
    2- not in the short term
    3- no because the investors who are putting their money on this technology could be damaged from this attitude.
    Warm Regards,
    A.R.

Leave a Reply

You can use these HTML tags

<a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <s> <strike> <strong>