Powering the Future

By combining the best available technologies and integration of them, the sum of the total system design is greater than the total of all its parts. Its possible to expand well beyond this 70 ton per day figure with 20MW electrolysis blocks (12 ton per day each) and methane pyrolysis reactors from 6.4MW each column yielding (~12.5 tons each per day) to add as much production as available pure water and methane is available at any given site. Of course technology can be scaled down as well, but certain economies of scale are realized the larger you go. A 140,000 ton maritime cargo vessel (For instance the Emma Maersk) would consume approximately 71,000 tons of green ammonia or methanol operated ~6900 hours (when not at port loading / unloading) out of 8760 per year, requiring ~12,500 tons (365*70 tons = 25,550 tons per year)  of hydrogen based on 17.65% H2 mass balance for NH3, and 12.5% H2 mass balance for Methanol (CH₃OH). A Boeing 747 jetliner flying year round consumes about 35,500 tons of kerosene / Jet-A fuel which has double the energy density of ammonia and methanol, so in essence a jetliner and cargo ship consume similar amounts of fuel / BTU per annum when operating at full capacity. So in essence 1 Hydrogenium integrated system can fully decarbonize 2 cargo ships or 2 747's in carbon free fuel per year.

activated carbon, adsorbent, arc, carbon, carbon dioxide, graphene, carbon nanotubes, bucky balls, carbon foam, ceramic, SIC, silicon carbide, boron nitride, C2, CH4, CO2, CO, CH₃OH, NH3, composite, counter-current, electrochemistry, electrolysis, EOR, methane pyrolysis,
frac, fracture, gas, glow discharge, H2, heating, HENG, hybrid, hydrogen, induction,
low temperature plasma, LTP, methane, natural gas, non-transferred arc, NTA, olefin,
patent, photochemistry, photon, plasma, polymer, predictive capability, process
intensification, skill, steam, solid oxide, supercritical, supersonic, UV, VUV,
water, wastewater, well screen, zeolite, zircon, SWRO, ZLD, zero liquid discharge, zero solid discharge, brine mining, lithium, supercritical aluminum oxidation, spiral welding, 

Overall heights are only limited by current conventional crane solutions. When hydrogen or helium airships / sky cranes are available towers can be erected to take advantage of higher wind velocities, but current proven spiral welded tower technology is being validated from heights to 160 meters (426').

By combining an array of smaller wind turbines and countercurrent impellers capable of generating 1.2MW each * 12 the stable operating rating is 216 kw*48 = 10,368 KW, and PEAK operating rating is 400 kw*48 = 19,200 KW. The overall swept area of the turbines is 60,324 square feet or 5605 m2. While the swept area of some of the largest offshore wind turbines can exceed 12,270m2 through wind concentration techniques a smaller overall swept area footprint can still accomplish the same power output, and requires much lower wind velocity to operate compared to gigantic blades and rotors, meaning the Hydrogenium wind turbine array will be providing continuous power in even light breezes. Should the wind velocity exceed ratings in the event of storms, the generators will automatically de-couple via magnetic clutches so as not to damage the system.