You are assuming that D + D gives He4. In the Mizuno reactor, we still don’t know exactly what is the reaction taking place there. It could be Ni + D -> Cu or Pd + D -> Ag. Let’s hope that that the Pd is not consumed in the Mizuno reactor otherwise all you plans in the cost for fuels felt apart.
From: Jed Rothwell <[email protected]> Sent: Wednesday, 3 July 2019 15:22 To: Vortex <[email protected]> Subject: Re: [Vo]:How to make money with cold fusion JonesBeene <[email protected] <mailto:[email protected]> > wrote: The first products will be the ones highest in commercial need for portable source of electricity, not heat. I doubt that mining cryptocurrency will be high enough in value as a niche market for any advanced energy generator. They only need cheap - nothing else overrides cheap for most markets. Deuterium and palladium will never be cheap. Deuterium is far cheaper than any other fuel. High-purity heavy water costs about $1000 per kilogram, or $1/g. One gram produces as much energy as 523 gallons of gasoline. At two dollars per gallon, that costs $1,046. See p. 33: https://lenr-canr.org/acrobat/RothwellJcoldfusiona.pdf Most of the cost of heavy water is for the energy needed to extract it. It is also expensive because there is no demand for it and techniques for extracting it have not improved much since the 1950s. Extracting large amounts of heavy water with cold fusion energy will lower the cost by at least a factor of 10, so it will be roughly 10,000 times cheaper than gasoline. As of now Pd is $1.40 per milligram but demand could push that up by a factor of 100 or more. Palladium cost $50.27 per gram which is $0.05 per milligram. Roughly half of palladium is used in catalytic converters. These will not be needed with cold fusion, freeing up supplies. Mizuno's projections show that even a large generator will need only a few grams of palladium. https://www.apmex.com/spotprices/palladium-price
