Prince Abdoul Aziz Honadia scite author profile

Prince Abdoul Aziz Honadia

5Publications

11Citation Statements Received

57Citation Statements Given

How they've been cited

How they cite others

Affiliations

Université Joseph Ki-Zerbo, Cheikh Anta Diop University

Publications

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Individual Energetic Processes Efficiencies in a Polycrystalline Silicon PV Cell Versus Electromagnetic Field

Ouédraogo

Savadogo

Honadia

et al. 2021

Silicon

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The Photovoltaic (PV) system is often installed near the telecommunication antenna without takes account the performance degradation that the electromagnetic field can cause. The present work provides the recognition about the greatest losses occur which can cause the overall efficiency drop. In fact, the absorption and the thermodynamic processes are more sensitive to the variation of the electromagnetic field more than FF and thermalization processes in presence of the electromagnetic field. The absorption and thermodynamic mechanism are the main cause of the degradation of the polycrystalline silicon PV cell outputs. The PV cell having height base doping level to get a better resistivity to the electromagnetic field must be chosen to improve theses outputs. Then a low electromagnetic field zones must be searched to install the PV system improving its electrical production performance.

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Performance Analysis of a Boost Converter with Components Losses

Honadia¹,

Barro²,

Sane³

2018

EPE

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A theoretical study of a conventional boost converter is presented. Based on the real behavior of the components, two models of the boost converter are introduced: one dealing only with losses through inductor and capacitor and another taking into account switching losses in addition to resistive ones. From these two models, the detailed analytical expressions of both voltage gain factor and conversion efficiency are established taking into account the losses through parasitic resistances and switching losses. The behavior of the converter is then analyzed for each model by simulation for the voltage gain factor and the conversion efficiency.

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Performance of conversion efficiency of a bifacial silicon solar cell with particle irradiation

Şahin

Barro

Sane

et al. 2017

Chinese Journal of Physics

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Silicon Solar Cell Space Charge Region and Capacitance Behavior under Electric Field

Zouma¹,

Barro²,

Honadia³

2021

EPE

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Quadratic Boost Converter: An Analysis with Passive Components Losses

Badiane¹,

Honadia²,

Zouma³

et al. 2021

OJAppS

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The Cascaded Connected Single Switch Quadratic Boost (C 2 S 2-QB) is studied first from its ideal model, then with semi-real model taking into account resistive losses through the inductors and the capacitor. The continuous conduction mode equations, describing these different models are established, taking into account losses through passive components. From these equations, the voltage gain and the efficiency are determined for the semi-real model. The voltage gain and the efficiency are then analyzed versus duty cycle and the influence of passive component losses on the performance of the quadratic boost converter is carried out for the semi-real model. It has been showed that the quality of the passive components of a converter plays an important role in the quality of the conversion. However, not all passives components affect the converter in the same way.

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