January 30, 2021 Journal article Open Access

Mohamed A. Ebrahim; Reham M. Abdel Fattah; Ebtisam M. Saied; Samir M. Abdel Maksoud; Hisham El Khashab

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  <identifier identifierType="URL">https://zenodo.org/record/5833382</identifier>
  <creators>
    <creator>
      <creatorName>Mohamed A. Ebrahim</creatorName>
      <affiliation>Electrical Engineering Department, Faculty of  Engineering at Shoubra, Benha University, Cairo, Egypt.</affiliation>
    </creator>
    <creator>
      <creatorName>Reham M. Abdel Fattah</creatorName>
      <affiliation>Power Electronics and Energy Conversion  Department, Electronics Research Institute, Cairo Egypt</affiliation>
    </creator>
    <creator>
      <creatorName>Ebtisam M. Saied</creatorName>
      <affiliation>Electrical Engineering Department, Faculty of  Engineering at Shoubra, Benha University, Cairo, Egypt and Electrical  Engineering Department-High Technological Institute (HTI)10th of  Ramadan City-Egypt</affiliation>
    </creator>
    <creator>
      <creatorName>Samir M. Abdel Maksoud</creatorName>
      <affiliation>Electrical Engineering Department,  Faculty of Engineering at Shoubra, Benha University, Cairo, Egypt.</affiliation>
    </creator>
    <creator>
      <creatorName>Hisham El Khashab</creatorName>
      <affiliation>Power Electronics and Energy Conversion  Department, Electronics Research Institute, Cairo Egypt.</affiliation>
    </creator>
  </creators>
  <titles>
    <title>An Islanded Microgrid Droop Control using  Henry Gas Solubility Optimization</title>
  </titles>
  <publisher>Zenodo</publisher>
  <publicationYear>2021</publicationYear>
  <subjects>
    <subject>Distributed generator; Droop control; Henry Gas Solubility Optimization; Microgrid</subject>
    <subject subjectScheme="issn">2278-3075</subject>
    <subject subjectScheme="handle">100.1/ijitee.C83650110321</subject>
  </subjects>
  <contributors>
    <contributor contributorType="Sponsor">
      <contributorName>Blue Eyes Intelligence Engineering and Sciences Publication(BEIESP)</contributorName>
      <affiliation>Publisher</affiliation>
    </contributor>
  </contributors>
  <dates>
    <date dateType="Issued">2021-01-30</date>
  </dates>
  <language>en</language>
  <resourceType resourceTypeGeneral="JournalArticle"/>
  <alternateIdentifiers>
    <alternateIdentifier alternateIdentifierType="url">https://zenodo.org/record/5833382</alternateIdentifier>
  </alternateIdentifiers>
  <relatedIdentifiers>
    <relatedIdentifier relatedIdentifierType="ISSN" relationType="IsCitedBy" resourceTypeGeneral="JournalArticle">2278-3075</relatedIdentifier>
    <relatedIdentifier relatedIdentifierType="DOI" relationType="IsIdenticalTo">10.35940/ijitee.C8365.0110321</relatedIdentifier>
  </relatedIdentifiers>
  <rightsList>
    <rights rightsURI="https://creativecommons.org/licenses/by/4.0/legalcode">Creative Commons Attribution 4.0 International</rights>
    <rights rightsURI="info:eu-repo/semantics/openAccess">Open Access</rights>
  </rightsList>
  <descriptions>
    <description descriptionType="Abstract">&lt;p&gt;Coordination of various distributed generation (DG) units is required to meet the growing demand for electricity. Several control strategies have been developed to operate parallel-connected inverters for microgrid load sharing. Among these techniques, due to the lack of essential communication links between parallel-connected inverters to coordinate the DG units within a microgrid, the droop control method has been generally accepted in the scientific community. This paper discusses the microgrid droop controller during islanding using the Henry Gas Solubility Optimization (HGSO). The most important goals of droop control in the islanded mode of operation are the frequency and voltage control of microgrid and proper power sharing between distributed generations. The droop controller has been designed using HGSO to optimally choose PI gains and droop control coefficients in order to obtain a better microgrid output response during islanding. Simulation results indicate that the droop controller using HGSO improves the efficiency of micro-grid power by ensuring that variance in microgrid frequency and voltage regulation and effective power sharing occurs whenever micro-grid island mode or when variation in load occurs.&lt;/p&gt;</description>
  </descriptions>
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