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Solar powered infotainment spot: design, feasibility study and fabrication of an autonomous PV system

Published online by Cambridge University Press:  29 April 2015

V. Weeda ,
O. Isabella  and
M. Zeman
V. Weeda
Affiliation:
Delft University of Technology, PVMD/Dimes, Mekelweg 4, 2628 CD Delft, The Netherlands
O. Isabella
Affiliation:
Delft University of Technology, PVMD/Dimes, Mekelweg 4, 2628 CD Delft, The Netherlands
M. Zeman
Affiliation:
Delft University of Technology, PVMD/Dimes, Mekelweg 4, 2628 CD Delft, The Netherlands
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Abstract

For increasing the awareness of photovoltaic (PV) conversion and its consumer developments, a PV-powered infotainment spot (information + entertainment) has been recently designed to be used in the campus of Delft University of Technology. This demonstrator provides information to people on campus via a rugged touchscreen that is powered only by solar energy. In this PV system, a 90-W rated flexible CIGS module was deployed as market alternative to rigid c-Si modules. A methodology to accurately estimate the irradiance on a curved plane was developed. Taking into account temperature, irradiance and shading effects, the energy production of the PV module was estimated to be 62 kWh/year. On the other hand, the load should exhibit an energy consumption of 19.3 kWh/year. By means of a 12-V DC mini grid, the excess energy was thus stored in a 120 Ah battery regulated via charge controller or made directly available with two ad-hoc USB ports for smartphone battery recharging. The realized prototype of the infotainment spot is potentially a completely autonomous small-scale PV system with zero loss of load probability.

Keywords

Sustainabilitysimulationphotovoltaic
Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1771: Symposium B/C/D/E – Recent Advances in Photovoltaics , 2015 , pp. 51 - 57
Copyright
Copyright © Materials Research Society 2015 

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References

REFERENCES

Koninklijk Nederlands Meteorologisch Instituut (http://www.knmi.nl/index_en.html (accessed March 2015).Google Scholar
Global Solar Hanergy, Powerflex™bipv - 82/90/100w, (http://www.globalsolar.com/downloads/PowerFLEX_2.pdf, accessed March 2015).Google Scholar
Reda, I. and Andreas, A., Solar Position Algorithm for Solar Radiation Applications, National Renewable Energy Laboratory Technical report (2008) (http://www.nrel.gov/docs/fy08osti/34302.pdf, accessed March 2015).CrossRefGoogle Scholar
SketchUp (http://www.sketchup.com/products/sketchup-pro, accessed March 2015).Google Scholar
LSS Chronolux (SketchUp extension) (https://extensions.sketchup.com/en/content/lss-chronolux, accessed March 2015).Google Scholar
Simple Sandia Sky Diffuse Model - PV Performance Modeling Collaborative (https://pvpmc.sandia.gov/modeling-steps/1-weather-design-inputs/plane-of-array-poa-irradiance/calculating-poa-irradiance/poa-sky-diffuse/simple-sandia-sky-diffuse-model/, accessed March 2015).Google Scholar
Duffie, J. and Beckman, W., Solar Engineering of Thermal Processes. John Wiley & Sons, Inc., 759761 (2006).Google Scholar
Fuentes, M., Nofuentes, G., Aguilera, J., Talavera, D. and Castro, M., Application and validation of algebraic methods to predict the behaviour of crystalline silicon PV modules in Mediterranean climates, Solar Energy, vol. 81, 13961408 (2007).CrossRefGoogle Scholar
Panasonic Toughpad FZ-A1 (http://www.panasonic.com/business/toughpad/us/best-android-rugged-tablet-overview.asp, accessed March 2015).Google Scholar
Simulink (http://nl.mathworks.com/products/simulink/, accessed March 2015).Google Scholar
Making use of Typical Meteorological Year Data (http://www.pveducation.org/pvcdrom/properties-of-sunlight/making-use-of-TMY, accessed March 2015).Google Scholar
Photovoltaic Geographical Information System (PVGIS) (http://re.jrc.ec.europa.eu/pvgis/, accessed March 2015).Google Scholar