Archive: 2008 - Moldavian Journal of the Physical Sciences

05 Apr 2008

2008
V. 7
2
(p.229 - 233)

Study of paraboloidal optical concentrator by ray-tracing method: Results

Authors:

Zaharie, I.; Luminosu, I; Ignea, D.

Summary:

This paper presents results obtained by using a software tool (Ray-Tracer), which we developed in order to simulate small size paraboloidal concentrator. The simulations were carried out for the days corresponding to equinox and solstice moments. For the interval between the winter solstice and summer solstice, we computed the optical concentration factors, the averaged optical concentration and the averaged optical efficiency. We found that the optical efficiency is maximal in March and it is minimal in December and June. All these results are in agreement with results reported in literature illustrating the fact that the proposed software tool is competitive.

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BibTeX

@article{ibn_3814,
author = {Zaharie, I. and Luminosu, I. and Ignea, D.},
title = {Study of paraboloidal optical concentrator by ray-tracing method: Results},
journal = {Moldavian Journal of the Physical Sciences},
year = {2008},
volume = {7 (2)},
pages = {229-233},
month = {Apr},
abstract = {(EN) This paper presents results obtained by using a software tool (Ray-Tracer), which we 

developed in order to simulate small size paraboloidal concentrator. The simulations were 
carried out for the days corresponding to equinox and solstice moments. For the interval between the winter solstice and summer solstice, we computed the optical concentration factors, 
the averaged optical concentration and the averaged optical efficiency. We found that the optical efficiency is maximal in March and it is minimal in December and June. All these results 
are in agreement with results reported in literature illustrating the fact that the proposed software tool is competitive. },
url = {https://ibn.idsi.md/vizualizare_articol/3814},
}

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the averaged optical concentration and the averaged optical efficiency. We found that the optical efficiency is maximal in March and it is minimal in December and June. All these results 
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<dc:description xml:lang='en'>This paper presents results obtained by using a software tool (Ray-Tracer), which we 

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carried out for the days corresponding to equinox and solstice moments. For the interval between the winter solstice and summer solstice, we computed the optical concentration factors, 
the averaged optical concentration and the averaged optical efficiency. We found that the optical efficiency is maximal in March and it is minimal in December and June. All these results 
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<dc:source>Moldavian Journal of the Physical Sciences 7 (2) 229-233</dc:source>
<dc:title>Study of paraboloidal optical concentrator by ray-tracing method: Results</dc:title>
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“ ... ”

SM ISO690:2012

ZAHARIE, I.; LUMINOSU, I; IGNEA, D.. Study of paraboloidal optical concentrator by ray-tracing method: Results. In: Moldavian Journal of the Physical Sciences. 2008, nr. 2(7), pp. 229-233. ISSN 1810-648X.