Increase of measuring-computing complex accuracy of heat supply systems to determine thermodynamic, aerodynamic and hydrodynamic characteristics of the working fluid
UDC: 519.853
DOI: -
Authors:
PETROV A.M.
1,
BELYAEV I.S.1,
POPOV A.N.2,3,
PUSHKAREV A.N.2
1 N.M. Fedorovsky Polar State University, Norilsk, Russia
2 Tyumen State University, Tyumen, Russia
3 GAU of the Northern Trans-Urals, Tyumen, Russia
Keywords: simulation modeling, automation, smart grids, heat supply system, modernization, technological processes
Annotation:
The accuracy of measuring and computing systems data of heat supply systems is an important task when making decisions during repair or operation. Therefore, increasing the accuracy of the information obtained about the current state of the working fluid inside the pipelines of heat supply systems is one of the important tasks of the energy sector. The authors of the article consider the development of approaches and methods for increasing the accuracy of measurements and the overall efficiency of measuring and computing systems of heat supply systems based on simulation models. The main tasks set by the authors of the article include experimental studies with the substantiation of a systematic approach to increasing the accuracy and overall efficiency as well as the development of a system for testing and monitoring measuring and computing systems of heat supply systems taking into account the influence of external factors. The authors of the article describe a laboratory stand and a simulation model developed for testing the proposed methods and technologies. The results of the work performed contribute to the development of intelligent and more reliable heat supply systems, being very important for energy sustainable development.
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