Two-tier integral indicator system for controlling the material flow heat-power engineering objects
| Autor: | Petrо Kulikov, Alla Bielova, Nataliia Zhuravska |
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| Jazyk: | angličtina |
| Rok vydání: | 2018 |
| Předmět: | |
| Popis: | Information support of nature management and environmental protection of thermal power facilities (FS) of the construction industry is associated primarily with control of natural resources (energy resources – energy, water) that is achieved by nonchemical water treatment in electromagnetic fields (EMFs) due to limited data available in scientific literature [1, 2, 3, etc.] in respect of changes directly, material flow teplosistemy in the process of exposure to high-frequency pulses, there is a need of systematization and formalization of the results of the passive monitoring [4] with the help of integrated indicator systems for determination of dynamics of changes in material flows of the feasibility study when using artificially (electromagnetic fields) anthropogenic-caused by magnetized water flows in them. It can be noted that engineering and technological aspect of the passive monitoring and the proposed methods of its formalization, which allows to establish structural and functional properties of the impact of production of technogenic influence on the material flow systems of the feasibility study. And environmental engineering aspect of passive monitoring allowed to testify that in the process of reagent-free water treatment with EMFs was a decrease in boonratana in pipelines and reduced use of natural resources [5, 6]. System indicators, in this aspect, allow you to determine the maximum allowable emissions into the air. Solving the issues of nature use of resources and nature protection activities (atmosphere protection) against the background of the creation of highly effective non-reagent technological water preparation [7] systems of thermal energy objects allow us to state that the results of research are relevant and require further study. The essence and the possibility of creation and application of a compliant two-level integrated indicator control on the technology of non-reagent water preparation in the heating systems of heat energy objects of the building industry is substantiated. Proposed scientific principles concerning development of indicator control system. It is established that quantitative characterization of components of material flows of heat systems as a measure of their additive functions and response to changes in catalytic activity is determined by their subordinated indicator control mechanism. Two-level control involves: 1) the relationship between the device for receiving magnetized water (parameters) and the heating system (specific indicators and their indices); 2) the relationship between the specific indicators characterizing the state of material flows of the heating systems and the trends of changes in material flows under the conditions of the action of electromagnetic fields on them - the hydrochemical, electrophysical and thermophysical potentials. Indicator control system provides engineering-ecological aspects of non-reagent water preparation of systems of heat energy objects of the building industry. |
| Databáze: | OpenAIRE |
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