Use of advanced procedures in the integrated system of managing energy systems

Faculty of Informatics and Management UHK

Project Description

The project focuses on the development of an integrated system of controlling a set of co-generative units. This controlling system is supposed to support the optimization of the set and to increase the effectiveness of the operation of decentralized co-generative units in dependence on the current daily costs and on the units´ current technical conditions. The main objective of the project is to design an innovative approach to the control of productive phases of the co-generative units´ life cycle and to make the producer involved in the overall solution process. One of the essential phases of the solution process is the decentralized monitoring of the operation and determining of rating parameters that can make a sufficiently precise and reliable evaluation of the overall level of the effectiveness of the object from the financial and technical point of view. The supposed objective is to be reached through a programmed predictive control based on fuzzy-neuron principles using rating indicators applied to the evaluation, modification, and adaptation of the pro-programmed predictive controlling system. To reveal the current conditions of the co-generative unit, unique sensors of operation liquids based on physical principles will come into being. Based on the current technological parameters and the values of the rating indicators, which will serve as the entrance into the system of predictive control, a set of recommendations will be created. These recommendations will concern the settings of the optimal operational regime in a short time period, dependent on the customer´s requests and the diagnosis of the units´ conditions. Relevant data will be collected through the sensors of the quality of the oil filling, products of combustion, temperatures, and vibrations, which will be based on the physical principles of the system control.

Center for Basic and Applied Research

Partner: ENWOX TECHNOLOGIES s.r.o.
Principal investigator (at partner): Lukas Duzi
Principal coinvestigator (at FIM UHK): prof. Ing. Ondřej Krejcar, Ph.D.

period: 2017 – 2020