A comparison of methods for the calculation of all the key points of the PV single-diode model including a new algorithm for the Maximum Power Point
A comparison of methods for the calculation of all the key points of the PV single-diode model including a new algorithm for the Maximum Power Point
In this paper we describe and compare the methods for the calculation of all the key points of the photovoltaic single-diode model. These include the Short-Circuit Point, the Open-Circuit Point, the Maximum Power Point, the Mean Slope Point, the Maximum Curvature Point, and the Jerk Point. The main contribution of this paper is a new algorithm to obtain the Maximum Power Point which is based on reducing its computation to solve a single-variable equation. Its unique solution leads to an explicit expression of the point by using a recent parametrization of the single-diode model current-voltage curve. In the numerical resolution of the previous equation, we will use as starting point the Mean Slope Point which has been proved to be close to the Maximum Power Point. Previously, we will provide for the first time in the literature an exact and explicit expression of the Mean Slope Point. The new algorithm proposed reaches the accuracy of the best known numerical methods, but it is much faster, almost reaching the execution times of explicit formulas.
1469–1503
Toledo, F. Javier
72ef6fd0-9d57-4b45-8a7b-bc99688520ac
Galiano, Vicente
241d4b06-7a9a-4153-9398-98f0b969e01d
Herranz, Victoria
b06b7350-8cb1-429d-8247-98fe208da1f2
Blanes, Jose M.
a67c9dda-7676-4514-802a-1cb9b024aee1
Batzelis, Stratis
2a85086e-e403-443c-81a6-e3b4ee16ae5e
Toledo, F. Javier
72ef6fd0-9d57-4b45-8a7b-bc99688520ac
Galiano, Vicente
241d4b06-7a9a-4153-9398-98f0b969e01d
Herranz, Victoria
b06b7350-8cb1-429d-8247-98fe208da1f2
Blanes, Jose M.
a67c9dda-7676-4514-802a-1cb9b024aee1
Batzelis, Stratis
2a85086e-e403-443c-81a6-e3b4ee16ae5e
Toledo, F. Javier, Galiano, Vicente, Herranz, Victoria, Blanes, Jose M. and Batzelis, Stratis
(2023)
A comparison of methods for the calculation of all the key points of the PV single-diode model including a new algorithm for the Maximum Power Point.
Optimization and Engineering, 25, .
(doi:10.1007/s11081-023-09850-8).
Abstract
In this paper we describe and compare the methods for the calculation of all the key points of the photovoltaic single-diode model. These include the Short-Circuit Point, the Open-Circuit Point, the Maximum Power Point, the Mean Slope Point, the Maximum Curvature Point, and the Jerk Point. The main contribution of this paper is a new algorithm to obtain the Maximum Power Point which is based on reducing its computation to solve a single-variable equation. Its unique solution leads to an explicit expression of the point by using a recent parametrization of the single-diode model current-voltage curve. In the numerical resolution of the previous equation, we will use as starting point the Mean Slope Point which has been proved to be close to the Maximum Power Point. Previously, we will provide for the first time in the literature an exact and explicit expression of the Mean Slope Point. The new algorithm proposed reaches the accuracy of the best known numerical methods, but it is much faster, almost reaching the execution times of explicit formulas.
Text
Key Points SDM_revised and marked
- Accepted Manuscript
More information
Accepted/In Press date: 7 September 2023
e-pub ahead of print date: 28 September 2023
Identifiers
Local EPrints ID: 482114
URI: http://eprints.soton.ac.uk/id/eprint/482114
ISSN: 1573-2924
PURE UUID: 729919b7-0b2f-4032-b850-a47b2f4aa861
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Date deposited: 19 Sep 2023 16:54
Last modified: 21 Sep 2024 02:04
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Contributors
Author:
F. Javier Toledo
Author:
Vicente Galiano
Author:
Victoria Herranz
Author:
Jose M. Blanes
Author:
Stratis Batzelis
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