Open AccessWATER STRUCTURES IN MECHANICAL FIELDS
Author(s) -
V D Shantarin,
Yu. D. Zemenkov
Publication year - 2015
Publication title -
izvestiâ vysših učebnyh zavedenij. neftʹ i gaz
Language(s) - English
Resource type - Journals
ISSN - 0445-0108
DOI - 10.31660/0445-0108-2015-3-126-133
Subject(s) - fractal , chemical physics , hexagonal crystal system , ion , molecule , electric field , water model , cluster (spacecraft) , materials science , conductivity , free water , water cluster , properties of water , water transfer , statistical physics , thermodynamics , chemistry , physics , crystallography , computer science , mathematics , computational chemistry , molecular dynamics , environmental science , environmental engineering , mathematical analysis , hydrogen bond , organic chemistry , quantum mechanics , programming language , water resource management
This article is devoted to studying the properties of water and its model. It is shown that the existing models are not able to explain the entire set of properties of water, considering water as a non-equilibrium system and possessing the properties of self-organization and sensitive to weak field effects. The results of the authors’ research confirm a cluster-fractal model which considers water as a mixture of free molecules and fragments with the ordered hexagonal structure. It is shown that pure water electric conductivity depends on concentration of ions and the water capability of a relay way of transfer of these ions, which depends on its structural- information state.