METHOD FOR EXTRACTION OF HYDROGEN FROM WATER

METHOD FOR EXTRACTION OF HYDROGEN FROM WATER

Invention relates to hydrogen energy technologies and, in particular to hydrogen from water extraction method. The method of the invention characterized in that the hydrogen produced by decomposition of water molecules into H and O atoms by energetic water nanodrops insertion into membranes. This is...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: MILCIUS DARIUS, PRANEVICIUS LIUDAS
Format: Patent
Sprache:eng ; lit
Schlagworte:
CHEMISTRY
COMPOUNDS THEREOF
INORGANIC CHEMISTRY
METALLURGY
NON-METALLIC ELEMENTS
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Beschreibung
Zusammenfassung:Invention relates to hydrogen energy technologies and, in particular to hydrogen from water extraction method. The method of the invention characterized in that the hydrogen produced by decomposition of water molecules into H and O atoms by energetic water nanodrops insertion into membranes. This is accomplished by forcing water into water vapor, and water vapor - into the water nanodrops, which continue electrified, accelerated in an electric field and inserted into the surface layers of the membrane that selectively let in hydrogen atoms. Energetic water nanodrops, which kinetic energy exceeds the total communication energy between the atoms that make up nanodrops, resolve into H and O atoms on the surface of the membrane. H atoms have passed through the membrane, forming H2 gas. Išradimas skirtas vandenilio energetikos technologijoms ir konkrečiai vandenilio iš vandens gavybos būdui. Šio išradimo būdas skiriasi tuo, kad vandenilis gaunamas skylant vandens molekulėms į H ir O atomus energingų vandens nanolašų įterpimo į membranas būdu. Tai pasiekiama vandenį verčiant į vandens garus, o vandens garus - į vandens nanolašus, kurie toliau įelektrinami, greitinami elektriniame lauke ir įterpiami į paviršinius sluoksnius membranų, selektyviai praleidžiančių vandenilio atomus. Energingi vandens nanolašai, kurių kinetinė energija viršija bendrą ryšio energiją tarp atomų, sudarančių nanolašus, skyla į H ir O atomus membranos paviršiuje. H atomai, praėję pro membraną, formuoja H2 dujas.