MMH
U.S. Patent # 8535493 B2 has some not obvious but remarkable features. The "MMH? is a generator that depends on the numbers (ratio) of included anodes versus cathodes and can produce between 50% to 90% (and more) pure hydrogen gas. To achieve such remarkable performance we are placing/installing one rod (anode) in the center. Then, depending on the radius and design of the cell, we install several cathodes (in circular arrays) around each anode in the cell. The surface area of the cathode (negative electrode) will break the molecules of the water to form pure hydrogen gas. For example, one design option is as follows: imagine a cell containing one anode/electrode in the center and eight cathodes/electrodes in circular array around. This arrangement alone will change the ratio of produced hydrogen/oxygen gas from standard 2:1 to remarkable 16:1. In effect the produced gas become 93.75% rich in hydrogen and 6.25 % in oxygen. The efficiency of ?MMH? is unprecedented and unique.
Citation Formats
National Renewable Energy Laboratory. (2017). MMH [data set]. Retrieved from https://data.openei.org/submissions/640.
Kasprzak, Adam. MMH. United States: N.p., 29 Apr, 2017. Web. https://data.openei.org/submissions/640.
Kasprzak, Adam. MMH. United States. https://data.openei.org/submissions/640
Kasprzak, Adam. 2017. "MMH". United States. https://data.openei.org/submissions/640.
@div{oedi_640, title = {MMH}, author = {Kasprzak, Adam.}, abstractNote = {U.S. Patent # 8535493 B2 has some not obvious but remarkable features. The "MMH? is a generator that depends on the numbers (ratio) of included anodes versus cathodes and can produce between 50% to 90% (and more) pure hydrogen gas. To achieve such remarkable performance we are placing/installing one rod (anode) in the center. Then, depending on the radius and design of the cell, we install several cathodes (in circular arrays) around each anode in the cell. The surface area of the cathode (negative electrode) will break the molecules of the water to form pure hydrogen gas. For example, one design option is as follows: imagine a cell containing one anode/electrode in the center and eight cathodes/electrodes in circular array around. This arrangement alone will change the ratio of produced hydrogen/oxygen gas from standard 2:1 to remarkable 16:1. In effect the produced gas become 93.75% rich in hydrogen and 6.25 % in oxygen. The efficiency of ?MMH? is unprecedented and unique.}, doi = {}, url = {https://data.openei.org/submissions/640}, journal = {}, number = , volume = , place = {United States}, year = {2017}, month = {04}}
Details
Data from Apr 29, 2017
Last updated Apr 29, 2017
Submitted Apr 29, 2017
Organization
National Renewable Energy Laboratory
Contact
Adam Kasprzak