of the TEO systems. Thus, in the TEO systems when using reagent-free water
treatment, a positive efficiency of structural and functional properties is achieved with
respect to the method of optimization of technological processes.
Providing technogenic reliability of energy-efficient heat supply systems with
reagent-free water treatment in them. The relevance of the work is consistent with
the principles of the state concept [8] functioning of industrial systems of thermal
power facilities of the construction industry.
Nowadays, the solution of these issues is included in the list of priority areas of
scientific and applied research in Ukraine [9, 10]. Therefore, with full confidence it is
possible to say that the conduct of such scientific works is of a state nature. It should
be noted that energy and its structural and functional components are the basic branch
not only of industrial production, housing and communal complex, that is, the needs of
the socio-economic complex in the system "industrial production-socio-economic
institutions – environmental protection" (conservation of natural and energy resources).
At the international level [11, 12], thanks to cooperation with relevant organizations
(for example, with the UN Committee on technogenic and environmental safety of
States), tactical intentions are already proposed to solve the above problem using
integrated indicators that simultaneously monitor the process of magnetized water and
the effects of exposure, for example, the use of magnetized water to obtain
technologically conditioned electromagnetic fluxes and heat capacity of the TEO
system. Energy saving as a result of structural and functional properties of material
flows in them. That is, the trend is realized: action-state-consequences for the
optimization of the technological process in the TEO systems.
An important scientific and applied principle of the effectiveness of reagent-free
water treatment is the ecological and economic consistency with a low level of resource
intensity of technological processes, due to the low cost of the engineering process of
obtaining magnetized water [2, 3, 13, 14, 15], environmental compatibility with the
environment (emissions into the atmosphere, do not pose a threat to the environment).
To obtain magnetized water, as a result of the action EMF was carried out in the
apparatus "Ilios-M" in mode "0CH2" [16].
To determine the energy thermophysical characteristics of the device used the
scheme of installation [16]. The main operating parameters of magnetized water are
the frequency of magnetic current (1...30 kHz) and the value of the magnetic field
induction with the value of induction (200...600 MT). Values of electrical conductivity
and data of thermophysical parameters [3] are also taken into account. On the basis of
these parameters, we have developed specific indicators and indicators characterizing
the catalytic activity (table. 1, and Fig. 3[15]). Physical processes confirm the
interaction, in our case, of separate components of the electromagnetic interaction
parameters and their specific indicators of the overall additive component functions of
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