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A Method for Evaluating the Daylighting of Premises Using BIM L&E, Vol. 29, No. 5 (1), 2021

Light & Engineering 29 (5)

Volume 29
Date of publication 10/18/2021
Pages 56–60

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A Method for Evaluating the Daylighting of Premises Using BIM L&E, Vol. 29, No. 5 (1), 2021
Articles authors:
Alexander P. Konstantinov

Alexander P. Konstantinov, Ph. D., Associate Professor. He graduated from Moscow State University of Civil Engineering in 2009. Now he is Head of the Research Centre “Facade Systems” (from Moscow State University of Civil Engineering). His research interests are translucent structures, building physics, loads and effects on buildings. His scientific and social activities include Expert ISO/TC162 – Doors, windows and curtain walling, Expert of the subcommittee “Windows, doors, gates” of the Technical Committee 465 “Construction” (Russia)

Abstract:
The paper presents a method for assessing the daylighting of premises, which can be used directly at the stage of architectural and construction design of buildings in building information model (BIM) software complexes. The calculation method is based on the calculation of the sky factor by constructing a solid angle formed by the calculated point and the light opening of the outer wall. These operations are proposed to be performed automatically using visual programming programs that work together with the BIM complexes. Since the considered calculation method is based on the idea of the physical meaning of the daylight factor, it can be used to evaluate the daylighting according to almost any regulatory method.
At the same time, all the data necessary for the calculation can be obtained directly from the building information model. The method is universal and can be used both for the calculation of side and top daylighting, considering the surrounding development. The proposed method can also be used as a tool for finding the best design solution for translucent structures of the designed building based on the requirements of thermal protection, daylighting, and safety.
References:
1. Muraviova N.A., Soloviev A.K., Stetsky S.V. Comfort light environment under natural and combined lighting: method of their characteristics definition with subjective expert appraisal using // Light & Engineering, 2018, Vol. 26, #3, pp. 124–131.
2. Solovyov A.K. Research into illumination of buildings and construction, conducted in architectural and construction educational and scientific institutes: A review // Light & Engineering, 2017, Vol. 25, # 1, pp. 23–30.
3. Stetsky S., Larionova K. The influence of sun-protective devices on daylight distribution in premises // E3S Web of Conferences, 2019, Vol. 110, 01070 p.
4. Phuong N.T. Kh., Solovyev A.K., Tamrazyan A.G. Integrated Approach to Determining Sizes of Light Openings in Buildings Taking into Account Safety Requirements // Industrial and Civil Construction, 2019, # 5, pp. 20–25.
5. Konstantinov A., Lambias Ratnayake M. Calculation of PVC windows for wind loads in high-rise building // E3S Web of Conferences, 2018, Vol. 33, 02025 p.
6. Stetsky S., Sokolova I., Hodeir W.A. Solid combined Sun-protective devises for windows with different orientation aspects in the conditions of hot and Sunny climate // E3S Web of Conferences, 2019, Vol. 110, 01058 p.
7. Plontikov A.A. Architectural and engineering principles and innovations in the construction of glass-facade buildings // Vestnik MGSU, 2015, #11, pp. 7–15.
8. Eremina T., Korolchenko D. Fire Protection of Building Constructions with the Use of Fire-Retardant Intumescent Compositions // Buildings, 2020, Vol. 10, #10, 185 p.
9. Lyapin A., Korolchenko A., Meshalkin E. Expediency of application of explosion-relief constructions to ensure explosion resistance of production buildings // MATEC Web of Conferences, 2016, Vol. 86, 04029 p.
10. Gorev V., Korolchenko A. Impact of the idle run of a rotating easily dumped structure on pressure in the room // IOP Conf. Series: Materials Science and Engineering, 2020, Vol. 869, 052069 p.
11. Korolchenko D. A., Evich A.A., Polandov Y.X. Dynamic Effects at Internal Deflagration Explosions // IOP Conf. Series: Materials Science and Engineering, 2019, Vol. 603, 052008 p.
12. Tikhomirov A., Konstantinov A., Kurushkina K., Lambias Ratnayake, M. Conception of a complex window design method // E3S Web of Conferences, 2019, Vol. 91, 05018 p.
13. Konstantinov A.P., Krutov A.A., Tikhomirov A.M. Assessment of the PVC windows thermal characteristics in winter // Construction Materials, 2019, # 8, pp. 65–72.
14. Konstantinov A.P., Ibragimov A.M. Complex approach to the calculation and design of translucent structures // Housing construction, 2019, #1–2, pp. 14–17.
15. Tikhomirov A.M., Konstantinov A.P., Kurushkina K.S. Design of window structures using building information modeling technology // Science and business: ways of development, 2018, Vol. 11, #89, pp. 123–128.
16. Bakharev D. V., Zimnovich I.A. Concerning theoretical analysis of the empirical luminance of facades // Light & Engineering, 2008, Vol. 16, #3, pp. 16–25.
17. Bakharev D. V., Zimnovich I.A. Optical transmission of windows // Light & Engineering, 2008, Vol. 16, #1, pp. 32–39.
18. Konstantinov A.P. Daylighting calculations for living premises with glazed balconies (loggias) // Housing Construction, 2020, #3, pp. 61–67.
19. Solovyov A.K. Environmental physics // Moscow: ASV, 2011, 341 p.
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