Safae AAZOU: New Applications
https://www.maplesoft.com/applications/author.aspx?mid=104409
en-us2021 Maplesoft, A Division of Waterloo Maple Inc.Maplesoft Document SystemFri, 26 Feb 2021 07:24:07 GMTFri, 26 Feb 2021 07:24:07 GMTNew applications published by Safae AAZOUhttps://www.maplesoft.com/images/Application_center_hp.jpgSafae AAZOU: New Applications
https://www.maplesoft.com/applications/author.aspx?mid=104409
The Real Photovoltaic Solar Cell
https://www.maplesoft.com/applications/view.aspx?SID=33045&ref=Feed
<p>In this contribution, we use Maple software to study a solar cell modeled by an electronic circuit containing five physical parameters. The physical parameters are: the series resistance, the reverse saturation current, the ideality factor, the shunt resistance and the photocurrent. First, we solve the characteristic equation giving the output current <br />
as a function of the output voltage of the solar cell. Then, we determine the analytical expressions of the short circuit current, the open circuit voltage, the dynamical resistance <br />
of the solar cell and the different kinds of powers involved : the output power, the power dissipated by Joule Effect in the internal components of the solar cell and the solar cell total power.</p>
<p>Next, we determine a new expression of the optimal load resistance corresponding to the maximal power point. Finally, we investigate the effects of the different physical parameters on the current-voltage characteristic I[out] = f(V[out]) and on the output power P[out](I[out]) of the solar cell.</p><img src="https://www.maplesoft.com/applications/images/app_image_blank_lg.jpg" alt="The Real Photovoltaic Solar Cell" style="max-width: 25%;" align="left"/><p>In this contribution, we use Maple software to study a solar cell modeled by an electronic circuit containing five physical parameters. The physical parameters are: the series resistance, the reverse saturation current, the ideality factor, the shunt resistance and the photocurrent. First, we solve the characteristic equation giving the output current <br />
as a function of the output voltage of the solar cell. Then, we determine the analytical expressions of the short circuit current, the open circuit voltage, the dynamical resistance <br />
of the solar cell and the different kinds of powers involved : the output power, the power dissipated by Joule Effect in the internal components of the solar cell and the solar cell total power.</p>
<p>Next, we determine a new expression of the optimal load resistance corresponding to the maximal power point. Finally, we investigate the effects of the different physical parameters on the current-voltage characteristic I[out] = f(V[out]) and on the output power P[out](I[out]) of the solar cell.</p>https://www.maplesoft.com/applications/view.aspx?SID=33045&ref=FeedMon, 25 May 2009 04:00:00 ZProf. EL MAHDI ASSAIDProf. EL MAHDI ASSAID