Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps
In this research by using IR, NES, and DNES methods were investigated various samples of water from Bulgarian water springs: the melt water from Glacier Rosenlaui, Swiss Alps, as well as the human blood serum of people with excellent health and cancer patients between 50 and 70 years old. Other expe...
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ftiisteojs:oai:ojs.localhost:article/23715 2023-07-23T04:19:24+02:00 Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps Ignatov, Ignat Enrico Bauer, Oleg Mosin 2015-07-28 application/pdf https://www.iiste.org/Journals/index.php/APTA/article/view/23715 eng eng The International Institute for Science, Technology and Education (IISTE) https://www.iiste.org/Journals/index.php/APTA/article/view/23715/24286 https://www.iiste.org/Journals/index.php/APTA/article/view/23715 Advances in Physics Theories and Applications; Vol 45 (2015); 6-29 info:eu-repo/semantics/article Peer-reviewed Article info:eu-repo/semantics/publishedVersion 2015 ftiisteojs 2023-07-01T18:48:16Z In this research by using IR, NES, and DNES methods were investigated various samples of water from Bulgarian water springs: the melt water from Glacier Rosenlaui, Swiss Alps, as well as the human blood serum of people with excellent health and cancer patients between 50 and 70 years old. Other experiments were performed on a Vortex Power Spring device (Vortex Power Company) for improvement of quality of tap water by saturation with oxygen. As an estimation factor in NES and DNES was measured the values of the average energy of hydrogen bonds (∆EH.O) among H2O molecules in water samples, as well as a local extremum in the DNES-spectra of various samples of water and the human blood serum at E = -0.1387 eV and λ = 8.95 μm. For a group of people in critical condition of life and patients with malignant tumors the greatest values of local extremums in IR-, DNES-spectra were shifted to lower energies relative to the control healthy group. Further we applied this method for calculation of percent distribution of H2O molecules in all studied water samples according to energies of hydrogen bonds ranged from (-0.08 to -0.1387 eV). In frames of the research was carried out the computer calculation of elemental polyhedral nanoclusters with a formula (Н2О)n, where n = 3–20. Based on this data some important physical characteristics of water were obtained, e.g. the average energy of hydrogen bonding between Н2О molecules in the process of cluster formation was measured by the DNES method compiles -0.1067 ± 0.0011 eV. It was shown that mountain water is among the most important factors for human longevity and human health. The variety of ions (K+, Na+, Ca2+, Mg2+, Mn2+, Fe2+, Fe3+, Zn2+, SO42-, Cl-, HCO3-, CO32-), chemical-physical parameters (pH, electroconductivity) and the decreased content of deuterium in studied water samples renders beneficial effects of this type of water on human health. Also our research has confirmed the efficiency of water treatment with the Vortex Power Spring apparatus for increasing the levels ... Article in Journal/Newspaper glacier International Institute for Science, Technology and Education (IISTE): Journals Nes ENVELOPE(7.634,7.634,62.795,62.795) Nes’ ENVELOPE(44.681,44.681,66.600,66.600) |
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International Institute for Science, Technology and Education (IISTE): Journals |
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ftiisteojs |
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English |
description |
In this research by using IR, NES, and DNES methods were investigated various samples of water from Bulgarian water springs: the melt water from Glacier Rosenlaui, Swiss Alps, as well as the human blood serum of people with excellent health and cancer patients between 50 and 70 years old. Other experiments were performed on a Vortex Power Spring device (Vortex Power Company) for improvement of quality of tap water by saturation with oxygen. As an estimation factor in NES and DNES was measured the values of the average energy of hydrogen bonds (∆EH.O) among H2O molecules in water samples, as well as a local extremum in the DNES-spectra of various samples of water and the human blood serum at E = -0.1387 eV and λ = 8.95 μm. For a group of people in critical condition of life and patients with malignant tumors the greatest values of local extremums in IR-, DNES-spectra were shifted to lower energies relative to the control healthy group. Further we applied this method for calculation of percent distribution of H2O molecules in all studied water samples according to energies of hydrogen bonds ranged from (-0.08 to -0.1387 eV). In frames of the research was carried out the computer calculation of elemental polyhedral nanoclusters with a formula (Н2О)n, where n = 3–20. Based on this data some important physical characteristics of water were obtained, e.g. the average energy of hydrogen bonding between Н2О molecules in the process of cluster formation was measured by the DNES method compiles -0.1067 ± 0.0011 eV. It was shown that mountain water is among the most important factors for human longevity and human health. The variety of ions (K+, Na+, Ca2+, Mg2+, Mn2+, Fe2+, Fe3+, Zn2+, SO42-, Cl-, HCO3-, CO32-), chemical-physical parameters (pH, electroconductivity) and the decreased content of deuterium in studied water samples renders beneficial effects of this type of water on human health. Also our research has confirmed the efficiency of water treatment with the Vortex Power Spring apparatus for increasing the levels ... |
format |
Article in Journal/Newspaper |
author |
Ignatov, Ignat Enrico Bauer, Oleg Mosin |
spellingShingle |
Ignatov, Ignat Enrico Bauer, Oleg Mosin Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
author_facet |
Ignatov, Ignat Enrico Bauer, Oleg Mosin |
author_sort |
Ignatov, Ignat |
title |
Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
title_short |
Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
title_full |
Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
title_fullStr |
Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
title_full_unstemmed |
Vortex Power Spring Water: Physical-Chemical Qualities of this Water compared to Mountain and Melt Water from Bulgaria, Russia and Glacier Rosenlaui from Swiss Alps |
title_sort |
vortex power spring water: physical-chemical qualities of this water compared to mountain and melt water from bulgaria, russia and glacier rosenlaui from swiss alps |
publisher |
The International Institute for Science, Technology and Education (IISTE) |
publishDate |
2015 |
url |
https://www.iiste.org/Journals/index.php/APTA/article/view/23715 |
long_lat |
ENVELOPE(7.634,7.634,62.795,62.795) ENVELOPE(44.681,44.681,66.600,66.600) |
geographic |
Nes Nes’ |
geographic_facet |
Nes Nes’ |
genre |
glacier |
genre_facet |
glacier |
op_source |
Advances in Physics Theories and Applications; Vol 45 (2015); 6-29 |
op_relation |
https://www.iiste.org/Journals/index.php/APTA/article/view/23715/24286 https://www.iiste.org/Journals/index.php/APTA/article/view/23715 |
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1772182416225468416 |