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Kim, M.K. (2015). Introduction of decentralized ventilation systems in buildings. Proceedings of the 1st International Conference on Sustainable Buildings and Structures, Suzhou, China, 29–31.KimM.K. (2015). . Proceedings of the 1st International Conference on Sustainable Buildings and Structures, Suzhou, China, 29–31.10.1201/b19239-33Search in Google Scholar
Kim, M.K., & Baldini, L. (2016). Energy analysis of a decentralized ventilation system compared with centralized ventilation systems in European climates: Based on review of analyses. Energy and Buildings, 111, 424–433.KimM.K., & BaldiniL. (2016). Energy analysis of a decentralized ventilation system compared with centralized ventilation systems in European climates: Based on review of analyses. , 111, 424–433.10.1016/j.enbuild.2015.11.044Search in Google Scholar
Regulation of the Minister of Infrastructure of April 12 2002 on technical conditions, which should correspond to the buildings and their location (consolidated text, Journal of Laws of 2019, item 1065, with further amendments)..Search in Google Scholar
Amanowicz, Ł., Ratajczak, K., Szczechowiak, E. (2019). Testing of single-duct ventilation units for the assessment of mixing of air in inlet and outlet. Ciepłownictwo, Ogrzewnictwo, Wentylacja, 50(6), 231–238 (in Polish).AmanowiczŁ.RatajczakK.SzczechowiakE. (2019). Testing of single-duct ventilation units for the assessment of mixing of air in inlet and outlet. , 50(6), 231–238(in Polish).Search in Google Scholar
Adamski, B. (2011). Heat recovery in ventilation and air conditioning systems, Inżynier budownictwa, 9 (in Polish).AdamskiB. (2011). , Inżynier budownictwa, 9(in Polish).Search in Google Scholar
Amanowicz, Ł., & Szczechowiak, E. (2017). Principles for the designing ventilations systems for energy-efficient buildings. Ciepłownictwo, Ogrzewnictwo, Wentylacja, 48(2), 72–78 (in Polish).AmanowiczŁ., & SzczechowiakE. (2017). Principles for the designing ventilations systems for energy-efficient buildings. , 48(2), 72–78(in Polish).Search in Google Scholar
Nizovtsev, M.I., Borodulin, V.Yu, Letushko, V.N., & Zakharov, A.A. (2016). Analysis of the efficiency of air-to-air heat exchanger with a periodic change in the flow direction. Applied Thermal Engineering, 93, 113–121.NizovtsevM.I.BorodulinV.YuLetushkoV.N., & ZakharovA.A. (2016). Analysis of the efficiency of air-to-air heat exchanger with a periodic change in the flow direction. , 93, 113–121.10.1016/j.applthermaleng.2015.09.029Search in Google Scholar
Giugno, A., Cuneo, A., & Traverso, A. (2019). Analysis of uncertainties in compact plate-fin recuperators for microturbines. Applied Thermal Engineering, 105, 1243–1251.GiugnoA.CuneoA., & TraversoA. (2019). Analysis of uncertainties in compact plate-fin recuperators for microturbines. , 105, 1243–1251.10.1016/j.applthermaleng.2019.01.093Search in Google Scholar
Manz, H., Huber, H., Schälin, A., Weber, A., Ferrazzini, M., & Studer, M. (2000). Performance of single room ventilation units with recuperative or regenerative heat recovery. Energy and Buildings, 31, 37–47.ManzH.HuberH.SchälinA.WeberA.FerrazziniM., & StuderM. (2000). Performance of single room ventilation units with recuperative or regenerative heat recovery. , 31, 37–47.10.1016/S0378-7788(98)00077-2Search in Google Scholar
Kim, M.K., Leibundgut, H., & Choi, J-H. (2014). Energy and exergy analyses of advanced decentralized ventilation system compared with centralized cooling and air ventilation systems in the hot and humid climate. Energy and Buildings, 79, 212–222.KimM.K.LeibundgutH., & ChoiJ-H. (2014). Energy and exergy analyses of advanced decentralized ventilation system compared with centralized cooling and air ventilation systems in the hot and humid climate. , 79, 212–222.10.1016/j.enbuild.2014.05.009Search in Google Scholar
www.ventilation-alnor.co.uk (last accessed 24 July 2019)www.ventilation-alnor.co.ukSearch in Google Scholar
PN-EN 13141-8:2011. Ventilation for buildings – Performance testing of components/products for residential ventilation – Part 8: Performance testing of un-ducted mechanical supply and exhaust ventilation units (including heat recovery) for mechanical ventilation systems intended for a single room.PN-EN 13141-8:2011. .Search in Google Scholar
PN-EN 12599:2013-04. Ventilation for buildings – Test procedures and measurement methods to hand over air conditioning and ventilation systems.PN-EN 12599:2013-04. .Search in Google Scholar