Viewpoints on wind and air infiltration phenomena at buildings illustrated by field and model studies

Hayati, 2014, Evaluation of the LBL and AIM-2 air infiltration models on large single zone buildings: three historical churches, Build Environ, 81, 365, 10.1016/j.buildenv.2014.07.013 Kobayashi, 2010, Experimental investigation and CFD analysis of cross-ventilated flow through single-room detached house model, Build Environ, 45, 2723, 10.1016/j.buildenv.2010.06.001 Naudascher, 2005 Heiselberg, 2006, Evaluation of discharge coefficients for window openings in wind driven ventilation, Int J Vent, 5, 43, 10.1080/14733315.2006.11683723 Kotani, 2006, Flow visualization and inflow direction measurement at a cross-ventilated large opening, Int J Vent, 5, 79, 10.1080/14733315.2006.11683726 Kurabuchi, 2004, Local dynamic similarity model of cross ventilation, part 1, theoretical framework, Int J Vent, 2, 371, 10.1080/14733315.2004.11683679 Murakami, 1991, Wind tunnel tests on velocity-pressure field on cross ventilation with open windows, ASHRAE Trans Symp, 97, 525 Bruus, 2008 Kumm, 2010 Blocken, 2008, Numerical study on the existence of the venturi effect I passages between perpendicular buildings, J Eng Mech, 134, 1021, 10.1061/(ASCE)0733-9399(2008)134:12(1021) Sandberg, 2004, An alternative view on the theory of cross-ventilation, Int J Vent, 2, 409, 10.1080/14733315.2004.11683682 Nyman, 2011, The influence of external wind in tunnels, Int J Vent, 10, 31, 10.1080/14733315.2011.11683933 Walton, 1990 Bejan, 1984 Mattsson, 2011, Impact of heating system on air velocities in a medieval stone church Okamura, 2013, Non-destructive inspection of buildings using radar polarimetry, 122 Mattsson, 2013, Fan pressurization method for measuring air leakage in churches—wind and stack induced uncertainties, 63 Etheridge, 2012 Cooper, 2011, Measurement of the adventitious leakage of churches with a novel pulse technique