[Bellia, L., Marino, C., Minichiello, F., Pedace, A. (2014). An overview on solar shading systems for buildings. Energy Procedia, 62, 309–317.10.1016/j.egypro.2014.12.392]Search in Google Scholar
[Carletti, C., Sciurpi, F., Pierangioli, L. (2014). The Energy Upgrading of Existing Buildings: Window and Shading Device Typologies for Energy Efficiency Refurbishment. Sustainability, 6, 5354–5377. DOI: 10.3390/su608535410.3390/su6085354]Search in Google Scholar
[Chua, K., Chou, S. (2010). Evaluating the performance of shading devices and glazing types to promote energy efficiency of residential buildings. Building Simulation, 3(3), 181–194.10.1007/s12273-010-0007-2]Search in Google Scholar
[Chwieduk, D., Bogdanska, B. (2004). Some recommendations for inclinations and orientations of building elements under solar radiation in Polish conditions. Renewable Energy, 29, 1569–1581.10.1016/j.renene.2003.12.018]Search in Google Scholar
[González, J., Fiorit, F. (2015). Daylight Design of Office Buildings: Optimisation of External Solar Shadings by Using Combined Simulation Methods. Buildings, 5, 560–580. DOI: 10.3390/buildings502056010.3390/buildings5020560]Search in Google Scholar
[Hausladen, G., Saldanha, M., Liedl, P. (2006). Climate skin, Building-skin Concepts that Can Do More with Less Energy. Berlin: Birkhauser.]Search in Google Scholar
[Jędrzejewski, M., Poćwierz, M., Zielonko-Jung, K. (2017). The problem of airflow around building clusters in different configurations. Archive of Mechanical Engineering, 64(3), 401–418.10.1515/meceng-2017-0024]Search in Google Scholar
[Kirimtat, A., Koyunbaba, B., Chatzikonstantinou, I., Sariyildiz, S. (2016). Review of simulation modeling for shading devices in buildings. Renewable and Sustainable Energy Reviews, 53, 23–49.10.1016/j.rser.2015.08.020]Search in Google Scholar
[Kobylarczyk, J. (2013). Ocena jakości środowiska zamieszkania w wybranych miastach województwa podkarpackiego po okresie „transformacji” w pierwszej dekadzie XXI wieku. Kraków: Wydawnictwo Politechniki Krakowskiej?]Search in Google Scholar
[Kobylarczyk, J. (2017a). Evaluation of the shading of the facade of the building in urban conditions. Constructional Review, 7–8.]Search in Google Scholar
[Kobylarczyk, J. (2017b). Optimisation of the interior lighting as an example of the environmental factors in the sustainable design. Polish Journal of Environmental Studies, 26(5A).]Search in Google Scholar
[Kobylarczyk, J. (2018a). Uwarunkowania środowiskowe w projektowaniu obszarów mieszkaniowych. Kraków: Wydawnictwo Politechniki Krakowskiej?]Search in Google Scholar
[Kobylarczyk, J. (2018b). Evaluation of the buildings’ shadowing in the compact housing development – selected examples. Architecture Civil Engineering Environment, 11(1), 37–42.10.21307/ACEE-2018-004]Search in Google Scholar
[Kolokotroni, M., Ren, X., Davies, M., Mavrogianni, A. (2012). London’s urban heat island: Impact on current and future energy consumption in office buildings. Energy and Buildings, 47, 302–311.10.1016/j.enbuild.2011.12.019]Search in Google Scholar
[Lam Hoi Yan, M. (2005). Thermal shading effect of climbing plants on glazed facades. In Conference materials from the Solar World Congress. Tokyo.]Search in Google Scholar
[Laouadi, A. (2010). Guidelines for Effective Residential Solar Shading Devices. Research Report, NRC Institute for Research in Construction, 300. March.]Search in Google Scholar
[Laskowski, L. (1992). Ogrzewnictwo. Część II. Projektowanie systemów biernego ogrzewania słonecznego w energooszczędnych budynkach. Kielce: Dział Wydawnictw Politechniki Świętokrzyskiej.]Search in Google Scholar
[Marchwiński, J., Zielonko-Jung, K. (2012). Współczesna architektura proekologiczna. Warszawa: PWN.]Search in Google Scholar
[Marchwiński, J. (2013a). Architectural evaluation of switchable glazing technologies. In Proceedings – Solar World Congress. Cancun.10.1016/j.egypro.2014.10.158]Search in Google Scholar
[Marchwiński, J. (2013b). Zieleń w ekologicznym projektowaniu budynków i ich otoczenia. Zieleń Miejska 3, 30–34.]Search in Google Scholar
[Marchwiński, J., Zielonko-Jung, K. (2013). Ochrona przeciwsłoneczna w budynkach wielorodzinnych. Pasywne rozwiązania architektoniczno-materiałowe. Warszawa: Wyższa Szkoła Ekologii i Zarządzania w Warszawie.]Search in Google Scholar
[Monge-Barrio, A., Sánchez-Ostiz Guttiérez, A. (2018). Passive Energy Strategies Mediterranean Residential Buildings. Cham: Springer.]Search in Google Scholar
[Nedhal, A., Fadzil, S. (2011). The Potential of Shading Devices for Temperature Reduction in High-Rise Residential Buildings in the Tropics. Procedia Engineering, 21, 273–282.10.1016/j.proeng.2011.11.2015]Search in Google Scholar
[Netam, N., Sahu, T. (2018). Comparative Advantage of Louver Shading Device on Window for Residential Building Located at Raipur. International Journal of Applied Engineering Research, 13(15), 11966–11969.]Search in Google Scholar
[O’Brien, W., Gunay, H.B. (2015). Mitigating office performance uncertainty of occupant use of window blinds and lighting using robust design. Building Simulation, 8(6), 621–636.10.1007/s12273-015-0239-2]Search in Google Scholar
[Pisello, A. (2015). Experimental Analysis of Cool Traditional Solar Shading Systems for Residential Buildings. Energies, 8, 2197–2210. DOI: 10.3390/en803219710.3390/en8032197]Search in Google Scholar
[Prieto, A., Knack, U., Klein, T., Auer, T. (2017). 25 Years of cooling research in office buildings: Review for the integration of cooling strategies into the building façade (1990–2014). Renewable and Sustainable Energy Reviews, 71, 89–102.10.1016/j.rser.2017.01.012]Search in Google Scholar
[Skarning, G., Hviid, C., Svendsen, S. (2016). The effect of dynamic solar shading on energy, daylighting and thermal comfort in a nearly zero-energy loft room in Rome and Copenhagen. Energy and Buildings, 135, 302–311.10.1016/j.enbuild.2016.11.053]Search in Google Scholar
[Taseiko, O. et al. (2009). Air pollution dispersion within urban street canyons. Atmospheric Environment, 43(2), 245–52.10.1016/j.atmosenv.2008.09.076]Search in Google Scholar
[Zielonko-Jung, K., Poćwierz, M. (2018). The impact of forms of the buildings on the air exchange in their environment on the example of urban development in Warsaw. In E. Ryńska et al. (Eds.), Design solutions for nZEB retrofit buildings (pp. 310–330). Pennsylvania: IGI Global.]Search in Google Scholar