![pc1d research paper pc1d research paper](https://www.scientific.net/AMR.383-390.7032/preview.gif)
They focused on n + np + configuration and varied the surface recombination velocity in order to enhance the front side performance. Mihailetchi et al., 2007 reported on n-type silicon solar cell with Al back junction using PC1D software. They observed that the optimum thickness decreases with increase of rear surface illumination ratio based on the electrical mismatch between the two sub-cells.
![pc1d research paper pc1d research paper](https://d3i71xaburhd42.cloudfront.net/c0ba39d7a80021fc2af2ba751601a45af2b170a0/4-Figure11-1.png)
They optimized the thickness of each sub-cell and varied back illumination ratios. Their design featured a symmetrical structure consisting of two sub-cells on the front and rear surfaces using Matlab Simulink. Fateha et al., 2001 investigated a bifacial solar structure in order to achieve maximum output power. The effect of the magnetic field on both photocurrent and photovoltage has been described for each illumination mode.
![pc1d research paper pc1d research paper](https://www.mdpi.com/energies/energies-14-04986/article_deploy/html/images/energies-14-04986-g001.png)
Mbodji et al presented a theorical study of bifacial solar cell (n + pp + ) under constant magnetic field and under constant illumination using Matlab Simulink. A few works has been reported modeling of bifacial solar cells using Matlab Simulink and PC1D. There are countless numbers of fabrication in bifacial solar cell. The sunlight directed into the rear surface can potentially provide an additional light source to generate current almost identical to that of the front surface. Thus, reflector or mirror should be appropriately placed on the backside of a bifacial solar module. The amount of power produced from the rear side of a bifacial solar cell is a function of the amount of sunlight incident on it. Similarly, bifacial solar cell panels can be mounted easily over carports, canopies, and other types of coverings. Therefore, bifacial solar cell can be implemented as structural component, i.e., fence or wall in building integrated photovoltaic systems. This is, in contrast, with monofacial solar cells, which are often used at fixed angles. In some application environments, bifacial solar cell has an advantage since it works well in vertical configuration. There are several advantages of the bifacial solar cell configuration including lower temperature coefficient, capability to process thinner wafers, and ease of packaging both n and p type wafers in the same module. Bifacial solar cells are attractive because they represent an elegant solution to enhanced output at lower material costs. Introduction Bifacial solar cell is a symmetric solar cell configuration in which sunlight is harnessed from both front and rear surfaces. Keywords: Silicon, Bifacial Solar Cell, PC1D simulation 1. From this study, it was found that minority carrier lifetime and wafer thickness are critical parameters to bifacial solar cell performance. Our results also provide critical insight regarding fabrication of bifacial solar cells on good or poor quality Si wafers. The results from these simulation studies prove that it is possible to propose these design parameters for bifacial solar cell fabrication. The efficiencies obtained from this design were % and % for front and back surfaces, respectively.
#Pc1d research paper software#
The influence of various parameters such as emitter doping, bulk doping, minority carrier lifetime, wafer thickness, front and rear surface recombination and illumination from front and rear surfaces were investigated using PC1D software simulation. 1 Design Optimization of Bifacial Solar Cell by PC1D Simulation Suhaila Sepeai, Saleem H.Zaidi, M.K.M.Desa, M.Y.Sulaiman, N.A.Ludin, M.Adib Ibrahim, K.Sopian Solar Energy Research Institute (SERI), Universiti Kebangsaan Malaysia (UKM), Bangi, Selangor, Malaysia * of the corresponding author: Abstract In this study, design and optimization of bifacial solar cell was done with PC-1D simulation program.