Ресурсно-процессная модель энергоменеджмента локального объекта с несколькими источниками энергии

Abstract

The resource-process of power consumption management model in the micro-energy system for local object is proposed in the paper. It is shown that the task of creation of electric power complexes on the basis of distributed power sources (traditional and renewable) and their intelligent control systems can be solved by synchronizing the implementation given by set the processes, taking into account their structure, baseline and mixed operating modes, generation and consumption electricity control and will ensure the minimization costs associated with forced blocking parallel processes in their distributed processing. The essence of the resource-process approach for dynamic energy management of micro-energy system with several sources of the electricity is to determine the minimum total time optimization of the current receivers composition, which form the load schedule, at the policy terms of the implementation energy supply structuring processes based on the minimum current cost electricity in the selected time interval as an efficiency criterion. The proposed approach will solve the problems of synthesis energy-efficient micro-energy systems for local objects with heterogeneous sources, as well as development algorithms for their optimal control on the basis of synchronization of generation and consumption electricity in real time.