Further research id related to technological and economic issues, which are
integral components of thermodynamic catalysis in the conditions of reagent-free water
treatment in the TEO systems (ecological and economic aspects of the production
process in the TEO systems).
To establish the economic optimum balance (for mass exchange), of
technogendue magnetized material flow systems as a mandatory unit of the ecological-
economic management in the development of resource-saving technologies), were
evaluated according to the following principle. The assessment was carried out on the
basis of the interaction of microparticles in the material flows of the TEO systems
(technological aspect), determining the economic optimum of water treatment in EMF
(economic aspect), determining the conservation of natural resources – water and
energy heat generation (environmental aspect). Fig. 4. shows the scheme of economic
optimum of nature management is presented.
Concerning the illustrative indicators that reflect the economic optimum of
thermal energy production in the TEO system, this process can be described in stages.
1)
with the expansion of the provision of heat energy services in the volume of
Qc, the use of heat energy resources is increasing, which makes the volume bigger then
optimal (Q).
2)
Changes in the use of heat energy volume vary. Number of interacting
microparticles (internal energy carriers) according to the equation Z
c
(Z
c
>Z).
Due to this, the marginal net profit of TEO is much lower than the technological
and economic damage. Therefore, to compensate for the optimal heat capacity in the
TEO, it is necessary to optimize the technological processes. This is the chain:
receiving anthropogenic-caused by the magnetized water in the machine, "Ilios-M" -
consistency mass transfer of material flows with conductivity – providing optimal heat
in the system TEO.
This conclusion is due to the fact that under normal conditions (studied) operation
of the TEO systems to increase thermal energy in them is not socially effective. Based
on the data analysis of Fig. 4. "area of profit" figure QXX
1
Q
c
isless then "area costs"
QXCQ
c
. That is, the operation of the TEO systems becomes unprofitable, due to the
fact that the amount of internal and external costs exceeds profits.
The results show that the achievement of economic optimum once again confirms
the important role of environmental management in the implementation of the
principles of production management. Thus, the internalization of the costs of
converting external to internal costs for the TEO is performed.
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