CASPIAN JOURNAL
MANAGEMENT AND HIGH TECHNOLOGIES
SYSTEM MODELING OF THE COST DYNAMICS OF THE MANAGEMENT PROCESS OF OPERATIONAL-FIELD TEAMS OF AN ELECTRIC GRID COMPANY
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Read | Kinzhalieva Aliya R., Khanova Anna A. SYSTEM MODELING OF THE COST DYNAMICS OF THE MANAGEMENT PROCESS OF OPERATIONAL-FIELD TEAMS OF AN ELECTRIC GRID COMPANY // Caspian journal : management and high technologies. — 2022. — №1. — pp. 53-64. |
Kinzhalieva Aliya R. - post-graduate student, Astrakhan State Technical University, satobalova@mail.ru
Khanova Anna A. - Doct. Sci. (Engineering), Associate Professor, Astrakhan State Technical University, akhanova@mail.ru
The implementation of the task of ensuring the reliability of the provision of services by electric grid companies at a minimum level of costs largely depends on reducing the duration of the interruption of power supply to consumers, which can be achieved by improving the management process of the on-duty personnel of operational field teams. In this regard, the task of improving the efficiency of the management process of operational field teams in the event of accidents and technological violations in electric grid companies is urgent. Time schedules are constructed, the structure and cost dynamics of the management process of operational and field teams are considered. A formal description of the process of forming costs for the operation of own and attracted resources in the event of emergency situations in the power grid complex is presented. The equations determining the rates of flows and the levels of costs generated during the exploitation of resources are described. An applied basic model of system dynamics based on the Forrester flow diagram has been developed and proposed to create simulation models of distribution grid companies. A simulation model of system dynamics developed in the Anylogic software product is presented. A scheme for conducting an experiment with a simulation model in EPC notation has been developed. The results of experiments with the model are described in detail, optimal characteristics are identified in terms of the number of personnel and the total number of equipment involved.
Key words: system dynamics, simulation modeling, costs, electric grid company, field teams, accident, management, personnel, resources