Ed, I think that the idea of a sodium thermochemical intermediary system for JTEC would be useful with or without the hydrino. It might be best to not even mention BLP in that context.
You may be suggesting that the JTEC already benefits unknowingly? BTW -- LENR heat, or any heat source for that matter, in the range of 300-400 C : if found to be useful with the Johnson JTEC converter, then it is possible that a thermochemical intermediary system could be used, with or without the Mills hydrino. The hydrino, if it is real and robust - could only help the situation when optimized - and in fact that might be why the JTEC seems so efficient... or is that where you were going initially ? ... i.e. since the Johnson membrane may have material which is active for redundancy, that is why it seems to be "too efficient" now ? If so, the same could be said for hydrogen fuel cells which achieve 65% efficiency when the Carnot spread should theorectially only allow 50%.... of course they are also not Carnot heat engines -- but stil, the efficiency "seems" too high. ----- Original Message ---- But Jones, you describe an energy storage and transport method. BLP is proposing an energy source. Would not the Johnson method also make hydrinos and be a variation of the BLP method?
