Hydrogen production by the decomposition of water
Patent
·
OSTI ID:863771
- Los Alamos, NM
How to produce hydrogen from water was a problem addressed by this invention. The solution employs a combined electrolytical-thermochemical sulfuric acid process. Additionally, high purity sulfuric acid can be produced in the process. Water and SO.sub.2 react in electrolyzer (12) so that hydrogen is produced at the cathode and sulfuric acid is produced at the anode. Then the sulfuric acid is reacted with a particular compound M.sub.r X.sub.s so as to form at least one water insoluble sulfate and at least one water insoluble oxide of molybdenum, tungsten, or boron. Water is removed by filtration; and the sulfate is decomposed in the presence of the oxide in sulfate decomposition zone (21), thus forming SO.sub.3 and reforming M.sub.r X.sub.s. The M.sub.r X.sub.s is recycled to sulfate formation zone (16). If desired, the SO.sub.3 can be decomposed to SO.sub.2 and O.sub.2 ; and the SO.sub.2 can be recycled to electrolyzer (12) to provide a cycle for producing hydrogen.
- Research Organization:
- Los Alamos National Laboratory (LANL), Los Alamos, NM
- DOE Contract Number:
- W-7405-ENG-36
- Assignee:
- United States of America as represented by United States (Washington, DC)
- Patent Number(s):
- US 4244794
- OSTI ID:
- 863771
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
/205/
12
16
21
acid
additionally
addressed
anode
boron
cathode
combined
compound
cycle
decomposed
decomposition
desired
electrolytical-thermochemical
electrolyzer
employs
filtration
form
formation
forming
hydrogen
hydrogen production
insoluble
molybdenum
oxide
particular
presence
process
produce
produce hydrogen
produced
producing
producing hydrogen
production
provide
purity
react
reacted
recycled
reforming
removed
soluble oxide
solution
sulfate
sulfate formation
sulfuric
sulfuric acid
tungsten
water
water insoluble
zone
12
16
21
acid
additionally
addressed
anode
boron
cathode
combined
compound
cycle
decomposed
decomposition
desired
electrolytical-thermochemical
electrolyzer
employs
filtration
form
formation
forming
hydrogen
hydrogen production
insoluble
molybdenum
oxide
particular
presence
process
produce
produce hydrogen
produced
producing
producing hydrogen
production
provide
purity
react
reacted
recycled
reforming
removed
soluble oxide
solution
sulfate
sulfate formation
sulfuric
sulfuric acid
tungsten
water
water insoluble
zone