Models for predicting damage due to accidents at energy objects and in energy systems of enterprises

Irina Zaychenko,Tatiana Saurenko,Nadezhda Grashchenko,Vitaliy Zhigulin,Evgeniy Anisimov,Vladimir Anisimov,O Kalinina

doi:10.1051/e3sconf/201911002041

Abstract

Achieving energy security by preventing and timely eliminating the consequences of accidents at energy facilities and in energy supply systems of enterprises is one of the important tasks of energy management. The basis for planning appropriate energy security measures is the prediction of damage from these accidents. The purpose of forecasting is to assess the possibility of an accident occurring at some point in time and leading to a particular damage, and to assess the magnitude of this damage. The article proposed methodological approaches to the construction of mathematical models of such prediction. In this case, as an indicator of damage, the economic losses caused by these accidents are taken. The simulation is based on the representation of this indicator in the form of a step change function of the magnitude of losses in the event of an accident. Depending on the amount of information available in the period prior to forecasting, the mathematical representation of the forecasting problem is reduced to the construction of conditionally determined or stochastic models. Conditionally determined models allow obtaining acceptable damage estimates with a short period of retrospection and small amounts of information, and stochastic models with significantly large amounts. At the same time, the principle of “maximum uncertainty” formalized in the form of maximum entropy is the basis for removing uncertainty in the construction of both conditionally determined and stochastic models. Its use has allowed increasing the objectivity of forecasts by minimizing the subjective information used in modeling. The proposed approaches to the construction of mathematical models for predicting accidents at energy facilities and power supply systems of enterprises are the basis for creating specific techniques for solving relevant energy management tasks both at the micro level at the scale of individual enterprises and at the macro level at the scale of industries, regions and the state as a whole.

Highlights

The development of the economy is characterized by the involvement in economic circulation of an increasing number of natural resources, the growth of the production base, the use of more and more complex technological systems, their concentration, and the increase in the amount of energy consumed by mankind
In order to increase the objectivity of forecasts due to minimization of subjective information used in modeling, uncertainty relief in building both conditionally determined and stochastic models is based on the “maximum uncertainty” principle formalized in the form of maximum entropy [5,6,7]
Its expansion leads to an increase in energy consumption and an increase in the threat of accidents at energy facilities and in the energy supply systems of enterprises

Summary

Introduction

The development of the economy is characterized by the involvement in economic circulation of an increasing number of natural resources, the growth of the production base, the use of more and more complex technological systems, their concentration, and the increase in the amount of energy consumed by mankind. All this leads to a sharp increase in the number and potential danger of accidents at energy facilities in general and the systems of energy supply of enterprises, in particular. A study of 5 thousand of the largest accidents of the last decades showed that 90-95% of them occurred in the industrialized countries of the world [1, 2]

Methods

Results

Conclusion