Miljövänlig , Låg Kostnad, Mindre Känd Vatten Teknik för Framtiden (Sammanfattning på Svenska) / Environmentally Friendly, Low Cost, Less Well Known Water Technology for The Future
Sammanfattning på Svenska: Tillsammans med andra teknikområden, tidigare inte accepterade tekniker, varav en del har använts i stor utsträckning för kommersialiserade applikationer successivt åter bekräftas av traditionella västerländska akademiker. Nästa fas är hur västerländska mainstream media av olika nivåer (från nyheter, vetenskap rapporter, Wikipedia) kommer att uttrycka dessa bekräftelser.
Sammanfattning på Svenska: Tillsammans med andra teknikområden, tidigare inte accepterade tekniker, varav en del har använts i stor utsträckning för kommersialiserade applikationer successivt åter bekräftas av traditionella västerländska akademiker. Nästa fas är hur västerländska mainstream media av olika nivåer (från nyheter, vetenskap rapporter, Wikipedia) kommer att uttrycka dessa bekräftelser.
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• 39’Sabatier reaction etc: HO2+CO2 fuel: continued 2<br />
• WM group generally calls this tech unviable and should not focus on such low potential<br />
system(eg: Hitachi Zosen, JAXA, SNL-INL, Air Fuel Synth’s, NewCO2Fuels, Doty Energy etc),<br />
This treatment trend by WM is same <strong>for</strong> low cost energy tech(Catalytic Depolymerization,<br />
Pyrolysis, SuperCritical <strong>Water</strong> Depolymerization etc), Similar pattern occurs as what is<br />
appearing to be a standard process to inventor type “free energy” technology claims even after<br />
they pass academic on site validation and small private use installations.<br />
• K2(energy production): Some of above listed companies are likely producing it in-house.<br />
Commercialization seems to be very low key likely due to conceptually disruptive(CO2 used as<br />
fuel stock and loses its constraint-control mechanism), i-Methanol as "abiotic fuel" production<br />
by use of geothermal power etc & CO2 from volcano(Volcanol - Carbon Recycling<br />
Intrenational), Room temp/pressure methanol production via photocatalytic reduction of CO2<br />
with water(Mitsui Zosen Plant Engineering+),<br />
• Currently limited <strong>for</strong>m of ii-liquid fuel commercialization by mainstream: (E-Diesel - SunFire -<br />
Audi+), Sort of "common military knowledge" at least US Navy(NRL electrolytic cation exchange<br />
module "demo") has been using CO2 as feedstock <strong>for</strong> their submarines.<br />
iii-Hydrocarbon plastic from CO2 & H2O via methanol(Mitsui Kagaku+), by heat recovery use,<br />
mostly low key internal use only<br />
• Unlisted effects:■(Reduce water storage needs <strong>for</strong> space ship crew): O2 required <strong>for</strong> breathing<br />
is made by H2O electrolysis, hence breathed out CO2 can be made into H2O by this reaction.<br />
For more disruptive low cost type go to (PhotoCatalyzed O2 Nanobubble oil-water emulsion<br />
infused by CO2 at room temp/pressure) at section 63'Other Anomalous Process - iv<br />
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