This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Concise statistical yearbook of Poland 2013, Warsaw Year LVI, Central Statistical Office.Concise statistical yearbook of Poland2013Central Statistical OfficeSearch in Google Scholar
Dreger M. (2010). Effective energy efficiency, Magazyn instalatora, 1 (137).DregerM.2010Effective energy efficiency1137Search in Google Scholar
Dz.U.2017.2285 Regulation of the Minister of Infrastructure and Construction of November 14, 2017 amending the regulation on technical conditions to be met by buildings and their location (in Polish).Search in Google Scholar
http://www.bgk.com.pl/–Figures of thermo-medernization and renovation fundSearch in Google Scholar
Ferdyn-Grygierek J., Baranowski A. (2012). Assessment of the airtightness and air exchange in polish dwellings – measurement experiences and problems met, Proceedings of the 33rd AIVC Conference and 2nd TightVent Conference. Copenhagen, 261–263.Ferdyn-GrygierekJ.BaranowskiA.2012Assessment of the airtightness and air exchange in polish dwellings – measurement experiences and problems metCopenhagen261263Search in Google Scholar
Kaczmarczyk J., Lipczyńska A. Kateusz P. (2017). Indoor environment quality evaluation in dwellings: a polish case study, Architecture Civil Engineering Environment, 4, 163–171.KaczmarczykJ.LipczyńskaA.KateuszP.2017Indoor environment quality evaluation in dwellings: a polish case study416317110.21307/acee-2017-059Search in Google Scholar
Polish Standard PN-83/B-03430/Az3: 2000 Ventilation in dwellings and public utility buildings.Search in Google Scholar
Dz.U.2002.75.690 Regulation of the Minister of Infrastructure of 12 April 2002 on technical conditions to be met by buildings and their location (in Polish).Search in Google Scholar
Ferdyn-Grygierek J., Baranowski A. (2013). Impact of air exchange on the heat consumption in dwelling houses and public buildings, Rynek Energii, 85–89.Ferdyn-GrygierekJ.BaranowskiA.2013Impact of air exchange on the heat consumption in dwelling houses and public buildings8589Search in Google Scholar
Carrie F. R., Rosenthal B. (2008). An overview of national trends In envelope and ductwork airtightness, AIVC, Ventilation Information Paper, 29.CarrieF. R.RosenthalB.2008An overview of national trends In envelope and ductwork airtightness, AIVC29Search in Google Scholar
Polish Standard PN-EN 12831: 2006 Heating systems in buildings. Method for calculation of the design heat load.2006Heating systems in buildings. Method for calculation of the design heat loadSearch in Google Scholar
Dimitroulopoulou C. (2012). Ventilation in European dwellings: A review, Building and Environment 47, 109–125.DimitroulopoulouC.2012Ventilation in European dwellings:4710912510.1016/j.buildenv.2011.07.016Search in Google Scholar
Langer S., Beko G. (2013). Indoor air quality in the Swedish housing stock and its dependence on building characteristics, Building and Environment 69, 44–54.LangerS.BekoG.2013Indoor air quality in the Swedish housing stock and its dependence on building characteristics69445410.1016/j.buildenv.2013.07.013Search in Google Scholar
Montoya M. I., Pastor E., E. Planas E. (2011). Air infiltration in Catalan dwellings and sealed rooms: an experimental study, Building and Environment 46, 2003–2011.MontoyaM. I.PastorE.E. PlanasE.2011Air infiltration in Catalan dwellings and sealed rooms: an experimental study462003201110.1016/j.buildenv.2011.04.009Search in Google Scholar
Santamouris M., Argiroudis K., Georgiou M., Livada I., Doukas P., Assimakopoulos M. N., et al. (2007). Indoor air quality in fifty residences in Athens, Int J Ventilation 4, 367–380.SantamourisM.ArgiroudisK.GeorgiouM.LivadaI.DoukasP.AssimakopoulosM. N.2007Indoor air quality in fifty residences in Athens436738010.1080/14733315.2007.11683752Search in Google Scholar
Sfakianaki A., Pavlou K., Santamouris M., et al. (2008). Air-tightness measurements of residential houses in Athens, Greece, Building and Environment 43, 398–405.SfakianakiA.PavlouK.SantamourisM.2008Air-tightness measurements of residential houses in Athens, Greece4339840510.1016/j.buildenv.2007.01.006Search in Google Scholar
Pinto M., de Freitas V.P., Stymne H., Boman C. A. (2006). Measuring air change rates using the PFT technique in residential buildings in northern Portugal, AIVC 27th conference 2006 – EPIC2006AIVC “Technologies & sustainable policies for a radical decrease of the energy consumption in buildings” – Lyon, France.PintoM.de FreitasV.P.StymneH.BomanC. A.2006Measuring air change rates using the PFT technique in residential buildings in northern PortugalLyon, FranceSearch in Google Scholar
BRE (1989). Background ventilation of dwellings: a review. Garston: BRE; 1989. BRE report 162.BRE1989GarstonBRE1989BRE report 162Search in Google Scholar
BRE (1985). Surface condensation and mould growth in traditionally built dwellings. BRE digest 297. Garston: BRE, ISBN 0 85125 341 5.BRE1985Surface condensation and mould growth in traditionally built dwellingsGarstonBREISBN0 85125 341 5Search in Google Scholar
Murray D. M., Burmaster D. E. (1995). Residential air exchange-rates in the united-states – empirical and estimated parametric distributions by season and climatic region Risk Analisys 15, 459–465.MurrayD. M.BurmasterD. E.19951545946510.1111/j.1539-6924.1995.tb00338.xSearch in Google Scholar
Yamamoto N., Shendell D. G., Winer A. M., et al. (2010). Residential air exchange rates in three major US metropolitan areas: results from the relationship among indoor, outdoor, and personal air study, IndoorAir 20, 85–90.YamamotoN.ShendellD. G.WinerA. M.2010Residential air exchange rates in three major US metropolitan areas: results from the relationship among indoor, outdoor, and personal air study20859010.1111/j.1600-0668.2009.00622.xSearch in Google Scholar
Bornehag C. G., Sundell J., Hagerhed-Engman L. et al. (2005). Association between ventilation rates in 390 Swedish homes and allergic symptoms in children, Indoor Air 15, 275–280.BornehagC. G.SundellJ.Hagerhed-EngmanL.2005Association between ventilation rates in 390 Swedish homes and allergic symptoms in children1527528010.1111/j.1600-0668.2005.00372.xSearch in Google Scholar
Stymne H., Boman C. A., Kronvall J. (1994). Measuring ventilation rates in the Swedish housing stock. Building and Environment 29, 373–379.StymneH.BomanC. A.KronvallJ.1994Measuring ventilation rates in the Swedish housing stock2937337910.1016/0360-1323(94)90037-XSearch in Google Scholar
Sundell J. (1994). On the association between building ventilation characteristics, some indoor environmental exposures, some allergic manifestations and subjective symptom reports, IndoorAir Suppl.2.SundellJ.1994On the association between building ventilation characteristics, some indoor environmental exposures, some allergic manifestations and subjective symptom reportsSuppl.210.1111/j.1600-0668.1994.tb00031.xSearch in Google Scholar
Øie L., Stymne H., Boman C. A., et al. (1998). The ventilation rate of 344 Oslo residences, IndoorAir 8, 190–196.ØieL.StymneH.BomanC. A.1998The ventilation rate of 344 Oslo residences819019610.1111/j.1600-0668.1998.t01-1-00006.xSearch in Google Scholar
Bekö G., Lund T., Nors F., Toftum J., Clausen G. (2010). Ventilation rates in the bedrooms of 500 Danish children, Building and Environment 45, 2289–2295.BeköG.LundT.NorsF.ToftumJ.ClausenG.2010Ventilation rates in the bedrooms of 500 Danish children452289229510.1016/j.buildenv.2010.04.014Search in Google Scholar
Batog P., Badura M. (2013). Dynamic of Changes in Carbon Dioxide Concentration in Bedrooms, 11th International Scientific Conference on Modern Building Materials, Structures and Techniques (MBMST) Procedia Engineering 57, 175–182.BatogP.BaduraM.2013Dynamic of Changes in Carbon Dioxide Concentration in Bedrooms, 11th International Scientific Conference on Modern Building Materials, Structures and Techniques (MBMST)5717518210.1016/j.proeng.2013.04.025Search in Google Scholar
ASHRAE. Standard 62.2 (2010). Ventilation and acceptable indoor air quality in low-rise residential buildings. Atlanta, GA: American Society of Heating, Refrigeration and Air Conditioning Engineers.ASHRAE. Standard 62.22010Atlanta, GAAmerican Society of Heating, Refrigeration and Air Conditioning EngineersSearch in Google Scholar
Polish Standard PN-EN 13829: 2002 Thermal performance of buildings. Determination of air permeability of buildings. Fan pressurization method.2002Thermal performance of buildings. Determination of air permeability of buildings. Fan pressurization methodSearch in Google Scholar
Walton G., Dols W. S. (2005). CONTAM 2.4 User Guide and Program Documentation National Institute of Standards and Technology. Gaithersburg.WaltonG.DolsW. S.2005GaithersburgSearch in Google Scholar
Baranowski A., Ferdyn-Grygierek J. (2009): Heat demand and air exchange in a multifamily building – simulation with elements of validation, Building Services, Engineering Research & Technology 30, 227–240.BaranowskiA.Ferdyn-GrygierekJ.2009Heat demand and air exchange in a multifamily building – simulation with elements of validation, Building Services3022724010.1177/0143624408338139Search in Google Scholar
Baranowski A., Ferdyn-Grygierek J. (2015). Effect of calculation zoning on numerical modelling of ventilation airflows, Building Simulation 8, 73–79.BaranowskiA.Ferdyn-GrygierekJ.2015Effect of calculation zoning on numerical modelling of ventilation airflows8737910.1007/s12273-014-0193-4Search in Google Scholar
Liddament M. (2001). Occupant impact on ventilation. Technical Note 53, The Air Infiltration and Ventilation Centre.LiddamentM.2001Technical Note 53, The Air Infiltration and Ventilation CentreSearch in Google Scholar
Nantka M. (2005). Airtightness and Natural Ventilation: A Case Study for Dwellings in Poland, International Journal of Ventilation, 4(1), 79–91.NantkaM.2005Airtightness and Natural Ventilation: A Case Study for Dwellings in Poland41799110.1080/14733315.2005.11683701Search in Google Scholar
Chen J., Peng Y., Wu S. (2012). An experimental investigation of natural ventilators for improving indoor air quality, International Journal of Ventilation, 11(2), 183–192.ChenJ.PengY.WuS.2012An experimental investigation of natural ventilators for improving indoor air quality11218319210.1080/14733315.2012.11683980Search in Google Scholar