This doesn't take into account that the electrolysis process can produce
another 34 lbs of HO-OH plus 2 lbs of H2 at 50 KW-Hr ($5.00) at about $0.15/lb
while the electrolysis H2 can be used in the Anthraquinone Process to produce another 34 lbs of HO-OH.
Then 2 HO-OH (68 Lbs) ----> 2 H2O + O2 + 3.6E8 Joules = 70KW-Hrs at 70% ICE efficiency.
3.6E8 joules is equivalent to 3 gallons of gasoline at 115,000 BTU or 1.2E8 joule/gallon.
$10.20 for Electricity & Processing-Shipping HO-OH vs $9.30 for gasoline?
http://www.h2o2.com/intro/faq.html#5
"How much does H2O2 cost?
It depends on the specifics of the requirement (e.g., H2O2 strength and grade, volume per year, packaging and delivery volumes,
and location/proximity to production plant or terminal, etc.).
Within the continental U.S., the list price for 50% Technical Grade (standard industrial grade),
delivered in full tank trucks (40,000 lbs), and freight equalized from the nearest production plant, is as follows.
"Product: $0.345 per lb-50% (FOB Houston, TX)
Freight: $3.50 per mile (regardless of delivery volume)
Taxes, tariffs and duties: ?"
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Anthraquinone Process:
"The manufacturing process involves the catalysis of the reaction of H2
with atmospheric O2 to give H2O2. Anthraquinone (Q) is used as a H2 carrier."
"Step1 - Hydrogenation
Palladium catalyses the reaction between H2 and anthraquinone to create
anthrahydroquinone (H2Q):
Q + H2 . H2Q
Step 2 - Filtration
The palladium catalyst is filtered out of the solution.
Step 3 - Oxidation
The solution is oxidised by blowing air through the solution, forming the H2O2:
H2Q + O2 . Q + H2O2
Step 4 - H2O2 Extraction
The hydrogen peroxide is removed in a liquid-liquid extraction column and
concentrated by vacuum distillation."
