Airtightness measurement of an outdoor chamber using the Pulse and blower door methods under various wind and leakage scenarios

United Nations Paris Agreement Etheridge, 2015, vol. 91, 51 1980, Air infiltration instrumentation and measuring techniques Jokisalo, 2009, Building Leakage, infiltration, and energy performance analyses for Finnish detached houses, Build. Environ., 44, 377, 10.1016/j.buildenv.2008.03.014 Raman, 2014, Detection and quantification of building air infiltration using remote acoustic methods 1996, NIST estimates nationwide energy impact of air leakage in U.S. buildings, J. Res. NIST, 101, 413 S.J. Emmerich., A.K. Persily, Energy impacts of infiltration and ventilation in U.S. office buildings using multizone airflow simulation, IAQ and Energy 98, pp.191-203. Jokisalo, 2009, Building Leakage, infiltration, and energy performance analyses for Finnish detached houses, Build. Environ., 44, 377, 10.1016/j.buildenv.2008.03.014 Ross, 1978 Kirkwood, 1977, Fuel consumption in industrial buildings, Build. Serv. Eng., 45, 23 Nevrala, 1977, Natural ventilation in well-insulated houses Caffey, 1979, Residential air infiltration, Build. Eng., 85, 919 Lombard, 2008, A review on buildings energy consumption information, Energy Build., 40, 394, 10.1016/j.enbuild.2007.03.007 BS EN ISO 9972, 2015 Sherman, 2004 Henry, 1998, Measurements of window air leakage at cold temperatures and impact on annual energy performance of a house, Build. Eng., 104, 1254 Cummings, 1996 Air-Leakage-Control-in-Multi-Unit-Residential-Buildings Cooper, 2007, Determining the adventitious leakage of buildings at low pressure. Part 2: pulse technique, Build. Serv. Eng. Technol., 28, 81, 10.1177/0143624406072331 Cooper, 2014, A nozzle pulse pressurisation technique for measurement of building leakage at low pressure Etheridge, 2015, vol. 91, 51 Sandberg, 2015, vol. 92, 504 Hsu Y.S., Zheng X.F., Cooper E.W., Gillott M., Lee S.K., Wood C.J., Evaluation of indoor pressure distributions in a detached house using the Pulse airtightness measurement technique, in: 40th AIVC Conference, Ghent, Belgium, 15-16 October 2019. Zheng, 2019, 162 Lee, 2011, Air tightness measurement with transient methods using sudden expansion from a compressed chamber, Build. Environ., 46, 1937, 10.1016/j.buildenv.2011.04.001 Bae, 2013, Improvement in the applicability of the air tightness measurement using a sudden expansion of compressed air, Build. Environ., 61, 133, 10.1016/j.buildenv.2012.12.017 Zheng, 2019, Experimental studies of a pulse pressurisation technique for measuring building airtightness, Future Cities and Environment, 5, 10.5334/fce.66 Sherman, 1995, 266 Carrie, 2020, Modelling building airtightness pressurisation tests with periodic wind and sharp-edged openings, Energy Build., 208, 109642, 10.1016/j.enbuild.2019.109642 Carrie, 2016, Uncertainties in building pressurisation tests due to steady wind, Energy Build., 116, 656, 10.1016/j.enbuild.2016.01.029 Leprince, V. & CARRIé, F. R, On the Contribution of Steady Wind to Uncertainties in Building Pressurisation Tests, 38th AIVC - 6th TightVent - 4th Venticool Conference, 13-14 September 2017 Nottingham, UK. Leprince, 2018, Uncertainties due to steady wind in building pressurisation tests, REHVA Journal, 53 Kraniotis, 2014 Kraniotis, 2014, Investigating instantaneous wind-driven infiltration rates using the CO2 concentration decay method, Int. J. Vent., 13, 111, 10.1080/14733315.2014.11684042 Kraniotis, 2013 Cooper, 2019, Field trialling of a pulse airtightness tester in a range of UK homes, Int. J. Ventilation, 18, 1, 10.1080/14733315.2016.1252155 Zheng X.F., Mazzon J., Wallis, I., Wood, C. J., Experimental study of enclosure airtightness of an outdoor chamber using the pulse technique and blower door method under various leakage and wind conditions, In: 39th AIVC - 7th TightVent & 5th Venticool Conference, 18-19 September 2018, Antibes Juan-Les-Pins. 352-362. Anderson C. Delmotte, J, Laverge, Interlaboratory test for the determination of repeatability and reproducibility of buildings airtightness measurements, 32nd AIVC Conference Proceedings. Brussels, Belgium: 12-13 October 2011. Prignon, 2017, Factors influencing airtightness and airtightness predictive models: a literature review, Energy Build., 146, 87, 10.1016/j.enbuild.2017.04.062 Baracu, 2017, Consideration of a new extended power law of air infiltration through the building's envelope providing estimations of the leakage area, Energy Build., 149, 400, 10.1016/j.enbuild.2017.04.055 Sherman, 1980, Infiltration-pressurization correlation: simplified physical modelling, Build. Eng., 86, II Howieson, 2014, Building tight - ventilating right? How are new air tightness standards affecting indoor air quality in dwellings?, Build. Serv. Eng. Technol., 35, 475, 10.1177/0143624413510307 Sinott, 2012, vol. 51, 269 Lowe Gillott, 2016, vol. 95, 227 Sharples, 2005, Airtightness testing of very large buildings: a case study, Build. Serv. Eng. Technol., 26, 167, 10.1191/0143624405bt117tn Etheridge, 2000, Unsteady flow effects due to fluctuating wind pressures in natural ventilation design-instantaneous flow rates, Build. Environ., 35, 111, 10.1016/S0360-1323(99)00007-4 Orme, 1994 2016 BS EN ISO 9972, 2015 Zheng, 2017, A comparison study of the blower door and novel pulse technique on measuring enclosure airtightness in a controlled environment