Effektive, Niedrige Kosten, Nicht Sehr Bekannt, Umweltfreundliche Wassertechnologien Für Die Zukunft (Zusammenfassung in Deutsch)

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• General Electrolysis Introduction 6(for section 16-18) • ◆B - ALKALINE WATER: Main effect element contents: iii- NaOH in water as Na+, OH−: ie Different from mere water diluted Sodium Hydroxide: many commercialized/academic/lab claims. But even in Japan, mainstream large companies avoid dealing directly(work via subcontractors) with widely used pH13 water, and producers often market it only domestically - e.g: • ●Some of equivalent Na+ OH− 0.15-0.2% dissolved electrolyzed water is pH13.1- 13.8, or its production device sold(but water diluted NaOH must be 0.5mol(2% solution) to be pH13.7, and 0.05mol(0.2%) should be no higher than pH12.7) ●Some pH13 water doesn't burn skin at all and barehand useable(science illegal effect) etc: dissolved ion & water is Electrically activated? ●There seems to be several different types of electrolysis mechanics to produce such high alkaline water: One representative type is by repeat feeding of circulated water that is reentered & re-electrolyzed from inside of 4 sided membrane electrode "alkaline water only chamber" to flow outward(Jwstec.co.jp - Neo Electrolysis Technology): One-man portable device is capable of pH1.6-14(needs 0.7% K). • v-H2, molecule Hydrogen claimed to stay much longer as dissolved than WM allowed by in water, linkedin.com/in/newnatureparadigm - Ben Rusuisiak: Specialty Cleantech Analysis, Vancouver, Canada 82
• General Electrolysis Introduction 7(for section 16-18) • Another example: Even same pH & name types of electrolyzed water has different quality as indicated below based on production chamber types(std typical models only, there are exceptions) Cham ber divi sion none Processed water type Electrolyte is dissolved in water: NaCl, KCl(more expensive) etc, 2 same as above 3 Often purewater use. Only dissolved ion comes into final product How it works Acid-Alkaline water mixture. Or only/mainly cathode functions by low voltage use Ion passing membrane dividing into 2 rooms with each has electrode operating Cathode+membrane, & Anode+mambrane work as divider. Electrolyte chamber in between Effect Stability & Lastability Less stable, & shorter effect due to electrolyte presence same as above Stable & longer lasting Rust effect on metal with NaCl use Rust prone water with salt same as above Much less rust prone water, no salt or chlorine, Direct pH control no no some yes Chance of non useful byproducts Small amount of Cl2/NaCl, Small amount of Cl2/ Trihalome thane/NaCl Much less or none of above Power use & run cost low high low Intend ed effect Weak er than 3 chamb er Weak er than 3 chamb er Strong er than above 83
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Effektive, Niedrige Kosten, Nicht S
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ABSTRACT: This presentation covers
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• QUALIFICATION OF INFORMATION
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• 66 Under utilized Water Technol
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• 66 Under utilized Water Technol
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• 1‘Crystallization: continued
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• 2’Pulsed Power : Effect Accep
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• 3’KDF: Effect mix of Accepted
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• 5’Natural Acid: Effect mix of
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• 5’Natural Acid: continued 3
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• 6‘Ozone: Effect mix of Accept
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• 6‘Ozone: continued 3 • -->c
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• 6‘Ozone: continued 5 • Gene
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• 7‘UV UltraViolet ray: Effect
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• 7‘UV: continued3 • -->>:var
Page 31 and 32: • 8‘Aeration, Aerobic Bacteria,
Page 41 and 42: • 9’SuperCritical Water: Effect
Page 43 and 44: • 9’SuperCritical Water: contin
Page 45 and 46: • 10‘Sonic, Its Cavitation, Aco
Page 47 and 48: • 10‘Ultrasonic, Sonic Cavitati
Page 49 and 50: • 10‘Ultrasonic, Sonic Cavitati
Page 51 and 52: • 11’Hydrodynamic cavitation: E
Page 53 and 54: • 11’Hydrodynamic cavitation: c
Page 59 and 60: • 12’Spiral Vortex/flowform: co
Page 61 and 62: • 13’Nanobubble: Effect mix of
Page 63 and 64: • 13’Nanobubble: continued 3
Page 65 and 66: • 13’Nanobubble: continued 5
Page 67 and 68: • 14’Photocatalytic water treat
Page 69 and 70: • 14’Photocatalytic: continued
Page 75 and 76: • 15’EDI & CDI: Effect mix of A
Page 77 and 78: • 16-18’General Electrolysis In
Page 79 and 80: • General Electrolysis Introducti
Page 81: • General Electrolysis Introducti
Page 85 and 86: • General Electrolysis Introducti
Page 87 and 88: • 16’Electrolysis Alkaline wate
Page 89 and 90: • 16’Electrolysis Alkaline wate
Page 91 and 92: • 17’Electrolysis Acid water: E
Page 93 and 94: • 17’Electrolysis Acid water: c
Page 95 and 96: • 17’Electrolysis Acid water: c
Page 97 and 98: • 18’Electrolysis Alkaline-Acid
Page 109 and 110: • 20’Electro phoresis: Effect m
Page 111 and 112: • 20’Electro phoresis, Electro
Page 113 and 114: • 21’Fulvic Acid: Effect mix of
Page 115 and 116: • 22’Nano Material Used Filter:
Page 117 and 118: • 22’Nano Material Used Filter/
Page 119 and 120: • 23’Plasma activated water(PAW
Page 127 and 128: • 24’Electrolytic Metal Alloy +
Page 129 and 130: • 24’Electrolytic Metal Alloy +
Page 131 and 132: • 25’Electrostatic treatment: E
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• 25’Electrostatic treatment: c
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• 26’Electric field, EM pulse:
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• 27’Time variant Magnetic Fiel
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• 28’”Catalytic water”, “
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PHASE CHANGE CATALYST TYPE WATER -
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PHASE CHANGE CATALYST TYPE WATER -
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• 29’HHO:& H2: Effect mix of Di
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• 29’HHO: continued 3 • —>>
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• 30’EM:& other Micro-organism
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• 31’Torsion field/Subtle field
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• 32’Scalar wave, Phase conjuga
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• 33’Mineral or BioCeramic/FIR-
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• 34’Vacuum Freezing/Ice Freezi
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• 34’Vacuum Freezing/Ice Freezi
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• 35’Vacuum Flash Vaporization/
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• 36’Water jet: Effect Accepted
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• 37’Water emulsion: continued
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• 38’Pumpable Ice Slurry: Effec
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• 39’Sabatier reaction etc: HO2
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• 40’Electro deposition/Polishi
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• 40’Electro Winning/Electro De
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• 41’Electro Spray: continued 2
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• 42’Electroporation(Cold Plasm
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• 42’Electroporation(Cold Plasm
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• 44’Electro-Hydraulic effect:
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• 44’Electro-Hydraulic effect:
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• 45’Electro Dialysis/Bipolar M
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• 47’Electro Heating: Effect Ac
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• 48’Nitrogen or CO2 infused wa
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• 49’Solar Distillation, Solar
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• 49’Solar Distillation, Water
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• 49’Solar Distillation, Water
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• 50’SuperCritical water(SCW) &
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• 50’Sub-SuperCritical water(SC
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• 51’SuperHeated Steam: continu
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• 51’SuperHeated Steam: continu
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• 52’Degassing/Degassed Pure Wa
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• 53’Biochar/Classic Carbon + U
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• 53’Biochar/Classic Carbon + U
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• 55’Nano Material treated wate
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• 55’Nano Material treated wate
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• 56’NanoFiltration: continued
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• 57’Electric & Magnetic Resona
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• 58’Ionizing projection in air
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• 59’Ferrous Ferric ion/Ferrate
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• 59’Ferrous Ferric ion water/F
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• 60’Vacuum Saturation heating
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• 61’Membrane Distillation/Perv
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• 62’ Mineral, Far InfraRed, Hi
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• 62’ Mineral, Far InfraRed, Hi
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• 63’Other “Anomalous Process
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• 64’Plant Polymer applied to w
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• 64’Plant Polymer applied to w
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• 65’Rain related Weather Modif
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• 65’Precipitation related Weat
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• 66’Atomospheric Water Generat
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• END OF PRESENTATION • Next 13
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First tech effect comparison 1-1 1
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Second effect comparison 1-1 34 35
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Second effect comparison 1-3 56 57
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Second effect compared 2-2 46 47 48
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Effektive, Niedrige Kosten, Nicht Sehr Bekannt, Umweltfreundliche Wassertechnologien Für Die Zukunft (Zusammenfassung in Deutsch)

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