Dependences of relative and absolute glazed area from configuration and common areas of window embrasure https://doi.org/10.33108/visnyk_tntu2018.01.122
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Abstract
The article deals with the economy of electric energy, which is spent on room lighting, because of increasing interests of natural light. As a result of the research, there has been obtained an analytical expression
for determination of the absolute and relative glazed area of window embrasure of any configuration. This gives an opportunity (taking into account the costs of manufacturing) to choose a rectangular as the main configuration.
It has been proved that only on the dependences of glazed area from window embrasure it is possible to come arrive to a decision with an acceptable range of metal-plastic window sizes in terms of providing high natural illumination of the premises
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References
1. Podgornyj A. L., Sergejchuk O.V. Metody raschyota neobxodimoj ploshhadi svetoproyomov, Vitrina, 2002, no. 15, pp. 11 – 22 [in Russsian].
2. Samojlov S.I., Solov'ev A.K. Proektirvanie svetoprojomov v ofisax i e'konomiya e'nergii. Svetotexnika, 2000, no. 1, pp. 23 – 25 [in Russsian].
3. Axmyarov T.A., Spiridonov A.V., Shubin I.L. Novye resheniya svetoprozrachnyx konstrukcij. Svetotexnika, 2015, no. 2, pp. 51 – 56 [in Russsian].
4. Narisada K. Balans mezhdu e'nergiej, okruzhayushhej sredoj i zritel'noj rabotosposobnost'yu. Svetotexnika, 2000, no. 1, pp. 4 – 10 [in Russsian].
5. Ajzenberg Yu.B. Sovremennye problemy e'nergoe'ffektivnogo osveshheniya. E'nergosberezhenie, 2009, no. 1, pp. 42 – 47 [in Russsian].
6. Ajzenberg, Yu.B. E'nergosberezhenie v osveshhenii. Moscow, Znak Publ, 1999. 264 p. [in Russsian].
7. Gagarin V.G., Zemcov V.A. O razrabotannom “Svode pravil po estestvennomu osveshheniyu zhilyx i obshhestvennyx zdanij”. Svetotexnika, 2005, no. 1, pp. 48 – 58 [in Russsian].
8. Goncharov N.P., Kireev N.N. Zritel'naya rabotosposobnost' pri estestvennom i iskusstvennom osveshhenii. Svetotexnika, 1977, no. 9, pp. 5 – 8 [in Russsian].
9. Skobareva Z.A., Teksheva D.M. Biologicheskie aspekty gigienicheskoj ocenki estestvennogo i iskusstvennogo osveshheniya. Svetotexnika, 2003, no. 4, pp. 7 – 13 [in Russsian].
10. Leslie R.P., Brons J.A. An integrated skylight luminare: combining daylight and electric luminaires for energy efficiency. Right Light 5, Proceedings of the 5th International Conference on Energy Efficient Lighting, Nice, France 20–31 May 2002, pp. 269 – 278.
11. Labib R. Improving daylighting in existing classrooms using laser cut panels – Lighting Research and Tecnhology, 2013, Vol. 45, pp. 585 – 598.
12. Abdelatia B., Marenne C., Semidor C. Daylighting strategy for sustainable schools: case study of prototype classrooms in Libia. Jornal of Sustainable Development, 2010, no. 3, pp. 60 – 67.
https://doi.org/10.5539/jsd.v3n3p60
13. Minnerup J., Braatz C. ErP and the effects on practical lighting installations in view of economic efficiency. Light and engineering, 2011, no. 2, pp. 48 – 60.
14. Neeman E., Hopkinson R.G. Critical minimum acceptable window size; a study of window design and provision of a view. Lighting Research and Technology, 1970, no. 2 (1), pp. 17 – 29.