A Proposed PVPS Simulink Model Suitable for Direct Coupled AC Loads. - Egyptian Knowledge Bank

126547

A Proposed PVPS Simulink Model Suitable for Direct Coupled AC Loads.

Article

Last updated: 22 Jan 2023

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Abstract

In order to develop a PV system, it needs to be either tested in a laboratory based power system model or to be simulated using a simulation program like Simulink. In fact, PV simulations provide good understanding of PV performance. The effect of many PV parameters can be studied and analyzed by simulating the proposed model. This paper presents a proposed PVPS Simulink model suitable for direct coupled PV-AC load system. The model consists of PV generator, DC-DC converter, maximum power point controller, DC-AC inverter and capacitor bank DC link as energy storage system. The DC link is used also to maintain balance between the DC power and the AC power transferred to the load. The entire system components are designed and a Matlab-Simulink model is developed and simulated to validate the optimum design of them. Measurements are taken at each stage of the system to test, verify and validate the design. Simulations results verify the functionality of PV generation systems with a resistive AC load.

DOI

10.21608/bfemu.2020.126547

Keywords

PV model, DC-DC converter, dc-ac inverter model, Maximum power point tracker

Authors

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First Name

Magdy Mohamed

Last Name

El-Saadawi

MiddleName

Ali

Affiliation

Dept. of Electrical Engineering, Faculty of Engineering Mansoura University, Egypt

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Orcid

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First Name

Mohamed Adel

Last Name

El-Sayes

MiddleName

Rateb Mohamed

Affiliation

Dept. of Electrical Engineering, Faculty of Engineering ., Mansoura University., Mansoura., Egypt

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City

Mansoura

Orcid

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First Name

Last Name

Al-Hamdan

MiddleName

Affiliation

Public Authority for Applied Education and Training Kuwait

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Orcid

Volume

Article Issue

Related Issue

18585

Issue Date

2009-12-01

Receive Date

2009-10-11

Publish Date

2020-12-30

Page Start

Page End

Print ISSN

1110-0923

Online ISSN

2735-4202

Article File

BFEMU_Volume 34_Issue 4_Pages 12-21.pdf

PDF . 443.1kB

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https://bfemu.journals.ekb.eg/article_126547.html

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https://bfemu.journals.ekb.eg/service?article_code=126547

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Research Studies

Type Code

1,205

Publication Type

Journal

Publication Title

MEJ. Mansoura Engineering Journal

Publication Link

https://bfemu.journals.ekb.eg/

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Article

Created At

22 Jan 2023

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Abstract

DOI

Keywords

Authors

First Name

Last Name

MiddleName

Affiliation

Email

City

Orcid

First Name

Last Name

MiddleName

Affiliation

Email

City

Orcid

First Name

Last Name

MiddleName

Affiliation

Email

City

Orcid

Volume

Article Issue

Related Issue

Issue Date

Receive Date

Publish Date

Page Start

Page End

Print ISSN

Online ISSN

Article File

BFEMU_Volume 34_Issue 4_Pages 12-21.pdf

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