The website “Beyond spacetime and quantum fields” describes the conservation of quanta transfer in space. This "law of quanta conservation" shows that cold fusion is some kind of BEC-like mechanism.

However, is it possible to do some simple, low cost experiments to employ the proposed mechanism in a usefull way? Because the successful Pd-based LENR are not suited for worldwide use and Palladium is precious and very expensive too (at the moment you have to pay about €1600 for 25 gram palladium).

This is not an easy question because simple, low cost experiments have a lot of limitations. For example, temperature and pressure are important variables when it comes to a high adsorption of hydrogen into a metal lattice (e.g. nickel). To control high pressure and high temperatures “at the kitchen worktop” isn't a realistic idea.

So we can try to design and force cold fusion with the help of some "layman's" experiments, but it isn't for sure that these simple and low cost experiments will be successful. Anyway, it is an attractive idea to give it a try.*
december 2015

*   The chapters are not publications but public working papers so the contents are not definitive.

The topic “LENR” – inclusive the description of a couple of experiments – was described in 19 chapters (April 2016). That is far too much because the subject is not yet closed (there was no sign of exceptional heat). Therefore I have compressed the contents of those 19 posts to a couple of posts.

Next chapter: "Quanta transfer is conserved"