The paper describes investigations of unsteady techniques for measuring leakage of buildings. The main investigation is theoretical. The theory used accounts for compressibility and inertia and is based on a quadratic flow equation. It is therefore an advance over what has been used in the few previous investigations. In particular, it allows uncertainties due to inertia to be assessed. The investigations cover three unsteady techniques i.e., the AC and the pulse techniques and a novel DC/AC technique. It is concluded that for most buildings, the conventional steady DC technique is preferable. However, for large buildings, the DC technique becomes increasingly inaccurate and an alternative technique is required. A novel form of pulse technique is proposed and theoretical and experimental investigations are presented which indicate that it has the potential to provide a simple and quick way of measuring the leakage of large buildings.
[1]
Takashi Sonoda,et al.
A sonic method for building air-leakage measurements☆
,
1986
.
[2]
R. W. Graham,et al.
Air leakage measurement of buildings by an infrasonic method. Final report, May 1976--December 1977
,
1978
.
[3]
D. Etheridge.
A note on crack flow equations for ventilation modelling
,
1998
.
[4]
D. W. Etheridge.
Unsteady flow effects due to fluctuating wind pressures in natural ventilation design—instantaneous flow rates
,
2000
.
[5]
Max H. Sherman,et al.
Signal attenuation due to cavity leakage
,
1988
.
[6]
M. Sandberg,et al.
Building Ventilation: Theory and Measurement
,
1996
.
[7]
D. W. Etheridge,et al.
Direct wind tunnel modelling of natural ventilation for design purposes
,
1999
.