Matlab/Simulink simulation model of photo-diesel power supply system with intelligent control

Lukutin, B. V.; Muravyev, Dmitry

doi:10.25206/1813-8225-2021-178-52-62

OSB

2021

DOI: 10.25206/1813-8225-2021-178-52-62

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Matlab/Simulink simulation model of photo-diesel power supply system with intelligent control

B. V. Lukutin¹,

Dmitry Muravyev²

Abstract: In this article, a simulation model of an autonomous PVdiesel power supply (PDPS) system with direct current is considered. The autonomous PDPS is implemented in the Simulink programming environment of the Matlab software package. The system includes: a photovoltaic power station (PPS), a diesel generator (DG), an energy storage system (ESS), a remote consumer as well as auxiliary converters. The PDPS model makes it possible to analyze the energy balance between generation, consumption, and the energy exchange… Show more

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Simulation models and application options of electric power storage systems in traction power supply

Nezevak

Dmitriev²

2022

Modern Transportation Systems and Technologies

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Background: the determination of the energy indicators of the traction power supply system based on the train schedule in the conditions of operation of storage devices is based on the solution of a number of instantaneous schemes, each of which corresponds to the established operating mode. These methods require adaptation to account for non-linear characteristics or indicators, the value of which is associated with the retrospective of the change. In this regard, it is necessary to use calculation methods based on the solution of differential equations to solve problems related to the assessment of performance in transient or emergency modes, taking into account dynamic characteristics. Modeling the operation of storage devices in the traction power supply system allows you to evaluate the change in indicators depending on the parameters of the devices, traction load and circuit solutions for various topologies. Aim: to determine the structure of models of electric power storage devices in DC and AC traction power supply systems, to consider the results of calculating the main energy indicators, to determine ways to improve circuit solutions based on the identified features, to determine the technical requirements for electric power storage devices in traction power supply. Materials and Methods: to obtain the results, methods for solving differential equations corresponding to various variants of the topology of storage devices in traction power supply, implemented in the Matlab software package, are used. Results: the results obtained allow us to determine the structure of storage devices for traction power supply, evaluate models of devices for traction power supply of direct and alternating current, outline the prospects for further research in the field of circuit solutions and required device parameters. Conclusion: the results of the study allow models of electricity storage devices and technical solutions for their implementation aimed at introducing DC and AC traction power supply into the system.

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Simulation models and application options of electric power storage systems in traction power supply

Nezevak

Dmitriev²

2022

Modern Transportation Systems and Technologies

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Matlab/Simulink simulation model of photo-diesel power supply system with intelligent control

Cited by 1 publication

References 0 publications

Simulation models and application options of electric power storage systems in traction power supply

Simulation models and application options of electric power storage systems in traction power supply

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