ASSESSMENT OF COHERENT PROPERTIES OF WATER FROM NATURAL SOURCES USING KIRLIANPHOTOGRAPHY OF WATER
Abstrakt
The article assessed the condition of the coherent properties of experimental water samples from natural sources in comparison with the results of a biological growth test. Carried out кirlianographic (Ki-photograph) study of 3 water samples from the natural springs of Skhidnitsa, including one sample from the pump room, were carried out. Present the criteria for coherent water for experimentally prepared using distilled water (KGD) and natural drinking water (KGP). According to the data presented, it can be seen that, according to the predominant features of the experimental water samples, the properties of the following coherence types are inherent in them: water from source 1 – coherent levorotatory 1st and 3rd degrees of coherence (52% and 17% of signs, respectively); water from the source 26 – coherent both types of direction, more levorotatory 1st degree (42% of signs) and dextrorotatory 1st degree (17%); water from source 10 (pump room) – coherent of both types of direction, more dextrorotatory, mainly with the 1st degree of coherence (46%), and the presence of levorotatory coherence of the 1st (21%) and 3rd degrees (21%). The presented results of biological growth demonstrate their differences among themselves, as well as the established properties of experimental water samples in terms of its coherence properties. It is necessary to further develop the direction of studying fine-material processes in water by the method of kirlianphotography with the development of an automated analysis of kirlianograms.
Wykaz bibliografii
2. Kurik, M.V. & Pesockaja, L.A. (2014). Kirlianografija zhivyh i kosnyh tel biosfery. [Kirlianography of living and inert bodies of the biosphere]. Dnipropetrovsk: Litograf [in Ukrainian].
3. Kurik, M.V., Pesockaja, L.A., Gluhova, N.V., & Evdokimenko, N.M. (2015). Kirlinografija jenergo-informacionnyh vzaimodejstvij vody [Kirilnography of energy-informational water interactions]. Dnipropetrovsk: Litograf [in Ukrainian].
4. Voejkov, V.L. (2009). Kljuchevaja rol' ustojchivo neravnovesnogo sostojanija vodnyh sistem v biojenergetike [The key role of a stable non-equilibrium state of water systems in bioenergy]. Rossijskij himicheskij zhurnal (Zhurnal RHO im. DI Mendeleeva) – Russian Chemical Journal (Journal of the Russian Chemical Society named after D.I. Mendeleev), 53(6), 41-49. [in Russian].
5. Kirlian S.D. & Kirlian V.H. (1957). Sposob poluchenija fotograficheskih snimkov razlichnogo roda obektov [A method of obtaining photographic images for various kinds of objects]. Avtorskoe svidetil'stvo – Inventor’s certificate No. 106401. G03V 41/00[in Russian].
6. Koltovoj, N.A. (2015). Metod Kirlian [Kirlian method]. Moscow. Retrieved from: https://www.koob.ru/koltovoy/method_kirlian_v [in Russian].
7. Korotkov, K.G. & Jakovleva, E G. (2014). Primenenie metoda GRV-biojelektrografii v medicine (obzor literatury) [Application of the GDV-bioelectrography method in medicine (literature review)]. Vestnik Sankt-Peter burgskogo universiteta. Medicina – Bulletin of St. Petersburg University. Medicine 2. Retrieved from https://cyberleninka.ru/article/n/primenenie-metoda-grv-bioelektrografii-v-meditsine-obzor-literatury [in Russian].
8. Pisotska L.A. & Hlukhova N.V. (2014). Sposib otsinky biolohichnoi aktyvnosti vody [Method of biological activity assessment for water]. Patent na korysnu model - Utility model patent Ukraine No. 91003 [in Ukrainian].
9. Pesockaja L.A., Mincer A.P., & Hlukhova N.V. (2016). Sposob opredelenija stepeni kogerentnosti sostojanija vody [Мethod for determining the degree of coherence of the state of water]. Patent Ukrainy na izobretenie – Patent of Ukraine for invention No. 112809. [in Ukrainian].
10. Pisotska L.A., Lapytskyi V.M., Botsman K.I. & Herashchenko S.V. (2007). Sposib otsinky enerhoinformatsiinoho stanu ridynno faznoho obiektu i prystrii dlia yoho zdiisnennia [A method for assessing the energy information state of a liquid-phase object and a device for its implementation]. Patent Ukrainy na korysnu model – Utility model patent Ukraine No. 22212 [in Ukrainian].
11. Pisotska, L. A., Mintser, O. P., & Hlukhova, N.V. (2015). Prystrii dlia reiestratsii zobrazhennia kirlian-svitinnia biolohichnykh obiektiv [Device for recording the image of the Kirlian glow of biological objects]. Patent na korysnu model. Pat, 100879.
12. Pesockaja, L.A., Mincer, O.P. & Hlukhova, N.V. (2015). Prystrii dlia reiestratsii zobrazhennia kirlian-svitinnia biolohichnykh obiektiv. [Device for registration of the Kirlian imageglow of biological objects]. Patent Ukrainy na korysnu model. – Utility model patent Ukraine No. 100879 [in Ukrainian].
13. Mandel, P. (1983). Energetische Terminalpunkt-Diagnose. Engan [in Norway].
14. Krasnobryzhev, V.G. & Kurik, M.V. (2010). Svojstva kogerentnoj vody [Properties of coherent water]. Kvantovaja Magija – Quantum Magic 7 (2), 2161-2166 [in Russian].
15. Krasnobryzhev, V.G. (2012). Global'nyj tehnologicheskij resurs makroskopicheskoj nelojal'nosti [Global technological resource for macroscopic disloyalty]. LAP LAMBERT Academic publishing [in Russian].
16. Krasnobryzhev, V.G. (2007). Sposob i oborudovanie dlja modifikacii topliva [Method and equipment for fuel modification. Sposób i urządzenie do modyfikacji paliwa]. Patent Pol'shi na poleznuju model' – Polish utility model patent No.207357 [in Poland].
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