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Energy consumption monitoring system and energy data processing tools

Tsmots I., Tsymbal Yu., Roman V., Karpa D.

ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes

2018

Vol. 7, No 2

45--52

It is determined that monitoring system of energy consumption at the enterprises in Lviv region should provide the implementation of the following tasks: energy data collection on a real-time basis; integration and processing of information resources justifying energy consumption at both enterprise and regional levels; communication between regional authorities and entrepreneurs; quick access of regional authorities to the latest information on energy consumption; analysis of energy consumption dynamics, structure and industrial energy efficiency; short-term and medium-term predictions of energy consumption and energy efficiency of regional economy; daily energy audit of enterprises of the region; rapid identification and response to energy loss (accidents, damage, illegal use etc); working out the effective managerial decisions based on processing of large amount of information related to energy consumption. The structure of the system of energy consumption monitoring in Lviv region was developed. It consists of two subsystems - information and analytical ones. The technical basis of the information subsystem comprises wireless sensor networks ensuring energy data collection on a real-time basis. Analytical subsystem consists of energy data warehouse, ETL, OLAP, BI, Data Mining tools, prediction, visualization and decision support tools. The components of the analytical subsystem providing for visualization and evaluation of industrial energy consumption were developed.

CFD simulation and experimental study of ultrasonic flowmeters

Roman V., Matiko F., Fedoryshyn R.

Challenges of Modern Technology

2017

Vol. 8, no. 1

37--43

This paper deals with CFD simulation and experimental study of ultrasonic flowmeters. A mathematical model of an ultrasonic flowmeter (USM) was built for studying the errors of flow measurement in disturbed flows. The method of defining the position coordinates of the acoustic paths and their weighting factors was improved based on the Gauss-Jacobi method of integration (i.e. the weighting function was improved) which provided the possibility to raise the accuracy of the turbulent flow velocity integration. The effectiveness of the improved method was verified using the Salami functions. New methodology for improving the mathematical model of USM is proposed. According to this methodology the dependence of the calibration factor on the Reynolds number is introduced into the model. A technique for studying the errors of USM in disturbed flows was developed on the basis of the proposed methodology. The developed technique was verified by comparing the CFD simulation results for a 3D model of an acting USM with the experimental results for this meter obtained by means of a reference test rig. The deviation of the simulation results from the obtained experimental data is not more than 1 %. Recommendations on defining the pipe straight lengths for the double-path chordal flowmeters were developed on the basis of the investigation results.