Modeling of Short-Term Electric Motor Load Power Supply Disturbances in the Matlab (Simulink) Systema

Качественная и надежная работа электрических машин и устройств в электроэнергетических системах судов с электродвижением является одной из наиболее важных приоритетов для сохранности жизни и здоровья экипажа, судового оборудования и выполнения поставленных задач. Одним из основных критериев качества электроэнергии является напряжение. В статье рассмотрены факторы возникновения провалов напряжения в судах с электродвижением и способы поддержания параметров электроэнергии в рамках ГОСТ 32144-2013. В статье представлены результаты исследований порогов чувствительности по напряжению различных систем и устройств электроснабжения. Описаны основные методы обеспечения оптимального уровня напряжения. На основе описанных методов разработан алгоритм компенсации провалов напряжения система, позволяющий решить все поставленные задачи по обеспечению нормативных параметров качества электроснабжения судна с электрическим приводом. Описанный алгоритм автоматического регулирования реализуется на основе fuzzy-логики с возможностью совмещения методов реактивной компенсации, синфазной компенсации и полной компенсации. Одним из результатов работы является модель сети электроснабжения с динамическим компенсатором последовательного типа, совмещающая векторные настройки, фильтр-компенсирующие устройства и нечеткую логику в среде MatLab Simulink. В статье подробно описан функционал представленной модели. Представлены графические и качественные показатели работы разработанной модели. В результате научного исследования выявлена эффективность применения предложенного устройства динамической компенсации в задачах устранения провалов напряжения при его последовательном включении. High-quality and reliable operation of electric machines and devices in the electric power systems of electric propulsion watercrafts is one of the most important priorities. This article reflects the reasons of voltage dips and their impact of watercrafts equipped with electric motor, as well as describes the importance of maintaining the quality of ship power supply. Presented research describes a determined voltage sensitivity threshold for various power supply systems and devices. The result of research is optimal method for compensating voltage dips and developed operational algorithm of the compensator. The described automatic control algorithm is implemented on the basis of fuzzy-logic with the possibility of combining the methods of reactive compensation, common-mode compensation and full compensation. As a result of the work, a power supply network model with a sequential-type dynamic compensator was designed, combining vector settings, filter-compensating devices and fuzzy logic in the MatLab Simulink environment, and the functional part of the model is described in detail. The article contains functional diagrams of described model, as well as graphic and quality indicators of the developed model. In a conclusion, the scientific research reveals the effectiveness of the proposed device of dynamic compensation with sequential inclusion in the tasks of eliminating voltage dips.

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Research of reliability of the electric power supply system with the electric motor load under external influences

Technology audit and production reserves ◽

10.15587/2312-8372.2016.58852 ◽

2016 ◽

Vol 1 (1(27)) ◽

pp. 22

Author(s):

Василь Ярославович Бунько ◽

Стефанія Григорівна Білик ◽

Ірина Василівна Калиній

Keyword(s):

Electric Power ◽

Power Supply ◽

Electric Motor ◽

Power Supply System ◽

Supply System ◽

Electric Power Supply ◽

External Influences ◽

Motor Load

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BUILDING A DYNAMIC MODEL OF A HELICOPTER POWER SUPPLY SYSTEM

CAD/EDA, MODELING AND SIMULATION IN MODERN ELECTRONICS: COLLECTION OF SCIENTIFIC PAPERS OF THE III INTERNATIONAL SCIENTIFIC AND PRACTICAL CONFERENCE ◽

10.30987/conferencearticle_5e028212c1d0a8.50361729 ◽

2019 ◽

Author(s):

Dmitriy Krasnov ◽

Vyacheslav Novoselsky

Keyword(s):

Dynamic Model ◽

Power Supply ◽

Power Supply System ◽

Supply System ◽

Dynamical Model ◽

Matlab Simulink

This work is devoted to the analysis of the possibility of constructing a dynamical model of a helicopter power supply system in the MATLAB SIMULINK program.

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Research on Short-term Load Forecasting Based Graph Computation in Power Supply Areas

10.1109/cyber53097.2021.9588259 ◽

2021 ◽

Author(s):

Lizong Zhang ◽

Dong Xie ◽

Gang Luo ◽

Gang Qian ◽

Meiya Song ◽

...

Keyword(s):

Power Supply ◽

Load Forecasting ◽

Short Term ◽

Graph Computation ◽

Short Term Load Forecasting

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Power supply risk assessment method for relay protection system faults

Archives of Electrical Engineering ◽

10.1515/aee-2016-0056 ◽

2016 ◽

Vol 65 (4) ◽

pp. 803-814

Author(s):

Si Tuyou ◽

Wu Jiekang ◽

Yuan Weideng ◽

Du Anan

Keyword(s):

Power Supply ◽

Distribution Systems ◽

Probability Model ◽

Relay Protection ◽

Assessment Method ◽

Protection System ◽

Supply Risk ◽

Load Power ◽

Risk Assessment Method ◽

Protection Systems

Abstract The influence and the potential risk due to hidden faults of a relay protection system on power supply in distribution systems are paid more and more attention to. A probability analysis method is used to analyse fault characteristics and action mechanism of dominant faults, hidden misoperation and non-operation of the relay protection systems, and failure probability model of relay protection system is constructed and simplified. The effects of dominant faults, hidden misoperation and non-operation of the relay protection systems on the reduced power supply load power are analysed, and a probabilistic model for reduced power supply load power is constructed by three parts corresponding to dominant faults, hidden misoperation and non-operation. A probability calculation method of power supply risk occurrence due to hidden faults of relay protecttion system is proposed considering the fault probability of the relay protection systems, the frequency of the hidden faults occurring in operation period, the reduced power supply load power or load power outage, and the connection mode of the in-lines, out-lines and transformers in a substation. The feasibility and applicability of the proposed method for estimation of risk value probability of the relay protection systems is verified by two studied examples.

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