Science-Accepted Past Grid Parity Tech 9:
Perpetual Hydrogen II, Heat Recovery
• —>> cont: SIGNIFICANTLY LOWER COST TYPES : Hydrogen Produc1on:
Non aluminium based Hydrogen: i Cavita6on(Cavita5on Energy Systems),
ii Electrohydraulic effect(H2 Energy Renaissance):
electrohydraulics/shockwave/cavita6on methods are rarely looked by academic
level but effect is undeniable(Sop Burjanadze, Tak Sato & Mas Oizumi+),
iii Nanopar6cle coated H2O electrolysis (Dopp+), iv Ultrasonic H2 genera6on from
water with non-oxidizing nanocrystal: ZnO fibers + BaTiO3 dendrites (Xiaochun Li),
v Various metal catalyst: eg Molecular Molybdenum Persulfide catalyst H2
dissocia6on from water(JR long+), vi PhotoCataly6c(Dav Milstein+), vii 84%
efficiency pure water Electrolysis by Cathode 35Mpa high pressure Solid Polymer
Electrolyte use, fluctua6ng power input workable like wind power(Honda R&D),
HEAT RECOVERY: unless otherwise stated generally 100-1000°C temp difference is
used - oeen which power genera6on is propor6onal to. Also leads to emission
reduc6on: part of mainstream focus in many - par5cularly Western na5ons, while
almost ignored in some others:
• ▀▀1. Kine&c Power Generators based Industrial HEAT RECOVERY as Electricity:
OAen as industrial CHP(Combined Heat & Power), or Combined Cycle at power
generator: common installa6on in at least as new system in Chemical, Pulp & Paper,
Wood, Petroleum Refining, Metal, Gas turbine/Nuclear power genera6on
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industries, use of Regular •a-d :