Zhuravska N.
Associate Professor, PhD, Department of Occupational Health and the
Environment of Kyiv National University of Construction and Architecture, Kyiv,
Ukraine
Kulikov P.
Professor, Doctor of Economics, Department of Economic Theory Architecture
of Kyiv National University of Construction and Architecture, Kyiv, Ukraine
THERMODYNAMIC CONCEPT OF OPERATION OF SYSTEMS OF
THERMAL POWER OBJECTS OF THE BUILDING INDUSTRY
Introduction. The paper deals with topical issues of technogenic safety of the
state as an integral part of environmental safety due to: the definition of the mechanism
of resource and energy conservation and optimization of technological processes of the
system of heat power facilities of low energy capacity in urban areas. Prior to the basic
tools of action on the implementation of the development of a method of reagent-free
preparation of process water in the systems of thermal power facilities (TEO) using
electromagnetic fields (EMF), resource-saving technology as a structural and
functional unit of the economy of industrial environmental management was developed
and implemented. For the basic principles of scientific approaches to solving these
problems, we propose the following tactical scientific and applied issues: the
theoretical essence and the thermodynamic concept of the TEO systems; forms of
organization of production processes and systems of TEO, that is, management
decisions of a comprehensive nature, which are aimed at optimizing technological
processes. This way of realization of reagentless water treatment in "Ilios" devices
contributes to the preservation of the functional integrity of magnetized water and the
efficiency of its use. The tactical principles of preparation of technical magnetized
water are carried out on a priority basis. The development and implementation of these
principles became possible due to the production of magnetized water in the device
"Ilios" and the establishment of optimal parameters of its operation. This process is
implemented in the form of candidate's thesis defense [1-3, 16]. The second stage of
scientific work in this direction is a completely independent theoretical and applied
development, where the question of determining the structural and functional
properties of heat supply systems are researched directly, as a component of the heat
and energy facility, which is a guarantee of the stability of the heat capacity of the TEO
system. The effectiveness of the operation of the TEO systems is due to the fact that
the process water has a technogenicconditioned nature of the structure, which is
constantly supported by the additive functionality of the TEO system (for example, a
stable total composition of material flows due to specific electrical conductivity and
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