Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking

Photovoltaic energy is one of the most renowned sources of renewable energy. Its major drawback, however, is the low efficiency of ultra-violet to electrical energy conversion. Irradiance and temperature are the major factors that determine its ability to achieve maximum power output. Maximum...

Full description

Saved in:
Bibliographic Details
Main Author: Dira, Yasir Sabah
Format: Thesis
Language:English
Published: 2018
Subjects:
Online Access:http://psasir.upm.edu.my/id/eprint/75444/1/FK%202018%20123%20-%20IR.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
id my-upm-ir.75444
record_format uketd_dc
spelling my-upm-ir.754442019-11-13T07:28:43Z Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking 2018-03 Dira, Yasir Sabah Photovoltaic energy is one of the most renowned sources of renewable energy. Its major drawback, however, is the low efficiency of ultra-violet to electrical energy conversion. Irradiance and temperature are the major factors that determine its ability to achieve maximum power output. Maximum power point tracking (MPPT) is developed in photovoltaic systems to maintain the maximum power output produced by its source. A boost DC-DC converter with maximum power point tracking algorithm aids in operating at the desired voltage level. From different MPPT techniques previously proposed, the online sequential extreme learning machine algorithm and conventional perturb and observe are combined together as a proposed MPPT algorithm. This combination is capable of extracting energy at the maximum operating level of a photovoltaic module. The simulation work covers modelling of the photovoltaic module, and the boost DC-DC converter and power LED light as a load, with maximum power point tracking algorithm to form a photovoltaic system. This system was evaluated under the actual environmental data based on location and dynamic MPPT efficiency tests. For comparison purpose, the conventional extreme learning machine and modified P&O were modelled as well. Several factors will be triggered on the solar module performance, and the PV module will be degraded over time. In this thesis, the proposed method will be emulated under the degradation of maximum output PV current. The diode ideality factor was chosen to evaluate the PV output current degradation.System elements are individually modelled in MATLAB/M-File and then connected to assess performance under different environmental conditions. The simulated results of the complete PV system show that the performances of the PV module using the proposed MPPT technique provide better output power when compared with the conventional ELM and modified P&O. It yields not only a reduction in convergence time to track the maximum power point but also significant output power when subjected to slow and rapid solar irradiance changes. Photovoltaic power systems 2018-03 Thesis http://psasir.upm.edu.my/id/eprint/75444/ http://psasir.upm.edu.my/id/eprint/75444/1/FK%202018%20123%20-%20IR.pdf text en public masters Universiti Putra Malaysia Photovoltaic power systems
institution Universiti Putra Malaysia
collection PSAS Institutional Repository
language English
topic Photovoltaic power systems


spellingShingle Photovoltaic power systems


Dira, Yasir Sabah
Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
description Photovoltaic energy is one of the most renowned sources of renewable energy. Its major drawback, however, is the low efficiency of ultra-violet to electrical energy conversion. Irradiance and temperature are the major factors that determine its ability to achieve maximum power output. Maximum power point tracking (MPPT) is developed in photovoltaic systems to maintain the maximum power output produced by its source. A boost DC-DC converter with maximum power point tracking algorithm aids in operating at the desired voltage level. From different MPPT techniques previously proposed, the online sequential extreme learning machine algorithm and conventional perturb and observe are combined together as a proposed MPPT algorithm. This combination is capable of extracting energy at the maximum operating level of a photovoltaic module. The simulation work covers modelling of the photovoltaic module, and the boost DC-DC converter and power LED light as a load, with maximum power point tracking algorithm to form a photovoltaic system. This system was evaluated under the actual environmental data based on location and dynamic MPPT efficiency tests. For comparison purpose, the conventional extreme learning machine and modified P&O were modelled as well. Several factors will be triggered on the solar module performance, and the PV module will be degraded over time. In this thesis, the proposed method will be emulated under the degradation of maximum output PV current. The diode ideality factor was chosen to evaluate the PV output current degradation.System elements are individually modelled in MATLAB/M-File and then connected to assess performance under different environmental conditions. The simulated results of the complete PV system show that the performances of the PV module using the proposed MPPT technique provide better output power when compared with the conventional ELM and modified P&O. It yields not only a reduction in convergence time to track the maximum power point but also significant output power when subjected to slow and rapid solar irradiance changes.
format Thesis
qualification_level Master's degree
author Dira, Yasir Sabah
author_facet Dira, Yasir Sabah
author_sort Dira, Yasir Sabah
title Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
title_short Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
title_full Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
title_fullStr Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
title_full_unstemmed Combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
title_sort combination of perturb and observe with online sequential extreme learning machine for photovoltaic system maximum power point tracking
granting_institution Universiti Putra Malaysia
publishDate 2018
url http://psasir.upm.edu.my/id/eprint/75444/1/FK%202018%20123%20-%20IR.pdf
_version_ 1747813052399484928