the process of magnetization of water (table. 1). In the table, with the help of indicators,
the structural and functional changes that occur in the heat supply system of the TEO
are characterized. It is shown that the dynamics of gradations of these indicators are
equivalent in terms of the level of changes in the mix itself, which is well monitored if
we characterize the optimal and critical modes of operation of the TEO. This situation
occurs in the TEO systems due to changes in the order (self-organization) of these
objects as a result of EMF and the creation of technologically conditioned material
flows in them. Technologically conditioned material flows in the TEO systems are
characterized not only by structural and functional indicators-indicators of the state of
material flows, but also the additive functions of heat systems due to changes in their
components Fig. 3 [15].
To assess and compare the dynamics of changes of the process of magnetization
of water in systems engineering, it is convenient to use specific indicators. As to the
levels of acceptability of specific indicators it is necessary to add, that their function is
growing monotonically to some value of its argument - order material flows
magnetization of water, as well as for preliminary levels. Taking into account the
specific technological parameters of magnetization and, given the hierarchical
approaches of multi-factor components (specific indicators - the index of correlation
between technology flows), we have found the optimal limits of structural-functional
state changes of the heating system, which should be at the level of ≤ 1. The estimated
level – graduation is a landmark to maintain reagent-free water treatment according to
certain parameters and their specific indicators.
Analysis of the data in the table, their relativeness to the technological process,
allow us to state that the maximum gradation of the technological process for the
maximum and minimum parameters differ from optimal by the fact that the
strengthening or weakening of action of electromagnetic fields in certain quantities
loosen the interaction between specific indicators.
Establishment of the maximum gradations of the process of water magnetization
became possible thanks to our systematic approach in conducting and evaluating
nonchemical water treatment in electromagnetic fields.
However, the direction of the goal – the preservation of mass transfer order of
material flows (Table 1) is carried out by electromagnetic interaction by getting the
relevant information based on the feedback of this mechanism of feedback
characterized by the properties of negative feedback loop, and therefore auto regulation
of the processes of magnetization of water takes place continuously. That is, identifying
positive and negative features (gradations) of preparation of technical water in
electromagnetic fields in systems of a heat supply determines the feasibility of water
treatment in the application of the appropriate method.
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