Those mass factors were covered in this analysts as follows: Quartz (33.4 ton), charcoal (with fixed carbon content of 13.2 ton) and scrap steel (5.1 ton) while the daily output production of Fe–Si alloy (73.5% Si) was 24.75 ton. From the total weights of Si and Fe in the input feed and assuming 100% recovery of the metals, the daily output alloy production could at best have been only 20.5 ton. However to our surprise throughout the 11-week period the total daily Fe–Si alloy (with 73.5% Si) output was consistently 24.75 ton, corresponding to a daily “anomalous” excess metal production of 4.25 ton of Fe–Si alloy.
On Wed, May 8, 2019 at 6:59 PM <[email protected]> wrote: > Hi, > > > Re:- > > http://coldfusioncommunity.net/wp-content/uploads/2018/08/244_JCMNS-Vol24.pdf > > The mass of a CO molecule = 12+16= 28 which matches the mass of Si28. > The mass of 2 CO molecules = 56 which matches that of Fe56. > > Physical inclusion of CO molecules within the Fe-Si matrix could thus > explain > the anomalous weight increase, as well as the reduction in CO combustion > above > the furnace, and also the lack of nuclear reaction energy (due to lack of > nuclear reactions). > Regards, > > > Robin van Spaandonk > > local asymmetry = temporary success > >
