A gray box modeling of a photovoltaic cell under low illumination in materials handling application | IEEE Conference Publication | IEEE Xplore
Subscribe
ADVANCED SEARCH
Conferences >2015 3rd International Renewa...

A gray box modeling of a photovoltaic cell under low illumination in materials handling application

PDF
Mojtaba Masoudinejad; Manjunath Kamat; Jan Emmerich; Michael ten Hompel; Saskia Sardesai
All Authors

Abstract:

This paper presents a gray box model of a photovoltaic (PV) cell working under low illuminance artificial indoor lighting conditions. A mathematical model of PV cells wit...Show More

Metadata

Abstract:

This paper presents a gray box model of a photovoltaic (PV) cell working under low illuminance artificial indoor lighting conditions. A mathematical model of PV cells with single and two diode configuration is used. Additionally a platform for the measurement of the PV cells within the indoor environment is presented. An optimization problem is formulated to tune the internal parameters of the mathematical models according to the collected data from measurement platform. Fluorescent and halogen lights are used as two common indoor lighting sources. The fine-tuned mathematical model with calculated parameters is implied to evaluate the performance of the gray box model compared to the measured data. Finally, to avoid using multiple models for different environmental conditions, regression techniques are used to generalize the model only based on the irradiance.
Published in: 2015 3rd International Renewable and Sustainable Energy Conference (IRSEC)
Date of Conference: 10-13 December 2015
Date Added to IEEE Xplore: 21 April 2016
ISBN Information:
Electronic ISSN: 2380-7393
DOI: 10.1109/IRSEC.2015.7455081
Conference Location: Marrakech, Morocco
References is not available for this document.
Contents

I. Introduction

The rising energy requirement of the world and the exhausting fossil fuels have given rise to the use of renewable energy resources such as solar energy [1]. Energy from solar cells are utilized for small and medium power based applications, as well as uses for powering the satellites in space [2]. According to the current state, a considerable amount of research is pursued to harvest energy from PhotoVoltaic (PV) cells under the outdoor lighting conditions.

Select All
1.
M. Jazayeri, S. Uysal and K. Jazayeri, "A simple MATLAB/Simulink simulation for PV modules based on one-diode model", 10th International Conference on High Capacity Optical Networks and Enabling Technologies (HONET-CNS), pp. 44-50, 2013.
View Article
Google Scholar
2.
W. Palz, Power for the World: The emergence of electricity from the sun, Panstanford Publishing, 2010.
Google Scholar
3.
Y. Afsar, J. Sarik, M. Gorlatova, G. Zussman and I. Kymissis, "Evaluating photovoltaic performance indoors", IEEE 38th Photovoltaic Specialists Conference (PVSC), pp. 1948-1951, 2012.
View Article
Google Scholar
4.
M. Muller, J. Wienold, W.D. Walker and L.M. Reindl, "Characterization of indoor photovoltaic devices and light", 34th IEEE Photovoltaic Specialists Conference (PVSC), pp. 738-743, 2009.
View Article
Google Scholar
5.
A. Nasiri, S.A. Zabalawi and G. Mandic, "Indoor power harvesting using photovoltaic cells for low-power applications", IEEE Transactions on Industrial Electronics, vol. 56, no. 11, pp. 4502-4509, 2009.
View Article
Google Scholar
6.
M. Masoudinejad, J. Emmerich, D. Kossman, A. Riesner, M. Roidl and M. ten Hompel, "Development of a measurement platform for indoor photovoltaic energy harvesting in materials handling applications", 6th International Renewable Energy Congress (IREC), pp. 1-6, 2015.
View Article
Google Scholar
7.
M. Masoudinejad, J. Emmerich, D. Kossman, A. Riesner, M. Roidl and M. ten Hompel, "A Measurement Platform for Photovoltaic Performance Analysis in Environments with Ultra-Low Energy Harvesting Potential", Journal of Sustainable Cities and Society, 2015.
CrossRef Google Scholar
8.
J.S. Emmerich, M. Roidl, T. Bich and M. ten Hompel, "Entwicklung von energieautarken intelligenten Ladehilfsmitteln am Beispiel des inBin", Logistics Journal Proceedings, 2012.
CrossRef Google Scholar
9.
J.F. Randall and J. Jacot, "Is AM1.5 applicable in practice? Modelling eight photovoltaic materials with respect to light intensity and two spectra", Renewable Energy, vol. 28, no. 12, pp. 1851-1864, 2003.
CrossRef Google Scholar
10.
N.N.B. Ulapane, C.H. Dhanapala, S.M. Wickramasinghe, S.G. Abeyratne, N. Rathnayake and P.J. Binduhewa, "Extraction of parameters for simulating photovoltaic panels", IEEE 6th International Conference on Industrial and Information Systems (ICIIS), pp. 539-544, 2011.
View Article
Google Scholar
11.
"Solems - FTI photopile - 05048032 Datasheet", Feb. 2015, [online] Available: http://www.solems.com/Indoor-solar-cells.
Google Scholar
12.
D.S.H. Chan and J.C.H. Phang, "Analytical methods for the extraction of solar-cell single- and double-diode model parameters from I-V characteristics", IEEE Transactions on Electron Devices, vol. 34, no. 2, pp. 286-293, 1987.
View Article
Google Scholar
13.
A.D. Hansen, Models for a stand-alone PV system, Ris⊘National Laboratory, Information Service Department, 2000.
Google Scholar
14.
Krismadinata, N.A Rahim, H.W. Ping and J. Selvaraj, "Photovoltaic module modeling using Simulink/Matlab", Procedia Environmental Sciences, vol. 17, pp. 537-546, 2013.
CrossRef Google Scholar
15.
S. Lineykin, M. Averbukh and A. Kuperman, "An improved approach to extract the single-diode equivalent circuit parameters of a photovoltaic cell/panel", Renewable and Sustainable Energy Reviews, vol. 30, pp. 282-289, 2014.
CrossRef Google Scholar
16.
G. Bhuvaneswari and R. Annamalai, "Development of a solar cell model in MATLAB for PV based generation system", Annual IEEE India Conference (INDICON), pp. 1-5, 2011.
View Article
Google Scholar
17.
J. Milanezi, R.S. Ferreira, J.P.C.L. da Costa, M.A.M. Marinho, R.A. Shayani and R.T. de Sousa, "Energy harvesting photovoltaic system to charge a cell phone in indoor environments", International Conference on Composite Materials Renewable Energy Applications (ICCMREA), pp. 1-6, 2014.
View Article
Google Scholar
18.
M.V. Paukshto and K. Lovetskiy, "Invariance of single diode equation and its application", 33rd IEEE Photovolatic Specialists Conference (PVSC), pp. 1-4, 2008.
View Article
Google Scholar
19.
G. Bhuvaneswari and R. Annamalai, "Influence of shunt resistance on the performance of solar photovoltaic cell", International Conference on Emerging Trends in Electrical Engineering and Energy Management (ICETEEEM), pp. 382-386, 2012.
View Article
Google Scholar
20.
V. Khanna, B.K. Das, D. Bisht, Vandana and P.K. Singh, "A three diode model for industrial solar cells and estimation of solar cell parameters using PSO algorithm", Renewable Energy, vol. 78, pp. 105-113, 2015.
CrossRef Google Scholar
21.
A. Kassis and M. Saad, "Analysis of multi-crystalline silicon solar cells at low illumination levels using a modified two-diode model", Solar Energy Materials and Solar Cells, vol. 94, no. 12, pp. 2108-2112, 2010.
CrossRef Google Scholar
22.
M. Wolf, G.T. Noel and R.J. Stirn, "Investigation of the double exponential in the current-voltage characteristics of silicon solar cells", IEEE Transactions on Electron Devices, vol. 24, no. 4, pp. 419-428, 1977.
View Article
Google Scholar
23.
W. Gong and Z. Cai, "Parameter extraction of solar cell models using repaired adaptive differential evolution", Solar Energy, vol. 94, pp. 209-220, 2013.
CrossRef Google Scholar
24.
J.A. Gow and C.D. Manning, "Development of a photovoltaic array model for use in power-electronics simulation studies", IEE Proceedings - Electric Power Applications, vol. 146, no. 2, pp. 193, 1999.
CrossRef Google Scholar

Contact IEEE to Subscribe
More Like This
Color Control System for RGB LED Light Sources Using Junction Temperature Measurement

IECON 2007 - 33rd Annual Conference of the IEEE Industrial Electronics Society

Published: 2007

Light source modeling for utilization in asymmetric reflector design for even surface illumination

2016 IEEE Lighting Conference of the Visegrad Countries (Lumen V4)

Published: 2016

Show More

References

References is not available for this document.

IEEE Account

Purchase Details

Profile Information

Need Help?

A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity.
© Copyright 2025 IEEE - All rights reserved. Use of this web site signifies your agreement to the terms and conditions.