Need to Know Hydrogen Fuel Information

Quick Need-to-Know Negatives

Hydrogen Fuels are not energy conservative carbon fuel substitutes when produced from electricity generated from carbon fuel combustion. This a non-starter due to electrolytic/combustion efficiency and the 1'st Law of Thermodynamics
HHO Fuel, Brown's Gas, and Oxy-Hydrogen cannot be stored at viable pressures
Energy input is always greater than the quantity recovered when Hydrogen Fuels are produced via electrolysis

Quick Need-to-Know Positives

Hydrogen Fuels are viable substitues for carbon fuels when produced from solar power, wind power, hydro-electric power, geo-thermal power, or coal based non-combustive chemical reactions; although the direct consumption of electricity is substantially more efficient
Brown's Gas is a viable substitute for Oxy-Acetylene specifically considering the cost of electrolysis
Brown's Gas, as a torch, does not require a breathing apparatus and can be used indoors
Brown's Gas is an energy conservative carbon fuel combustion catalyst no matter the source of electricity. A chemical synergy occurs reducing the activation energy of carbon fuel combustion
Brown's Gas increases the combustion efficiency of carbon fuels, most notably reducing Carbon Monoxide, Smog, and Particular Matter emissions, while mitigating net carbon fuel requirements
Pure Hydrogen can be stored at viable pressures
Hydrogen Fuels are non toxic
Hydrogen Fuels dissipate quickly and will not collect in closed spaces
Hydrogen Fuel combustion with atmosphere emits negligible pollution
Hydrogen Fuel cells emit zero pollution

General Need-to-Know Information

An average of 4.5 watt hours, per liter, is the energy requirement of Hydrogen Fuel production via electrolysis
Common Ducted electrolysis is increasingly efficient as compared to Independenty Ducted electrolysis, although Independent Ducting is required to produce Pure Hydrogen
Series cell parallel plate, utilizing the principal of voltage dividers, is the most efficient electrolyzer design