This paper describes an instrument developed for the semi-continuous measurement of aerosol mass and its categorization into three classes. These classes have been chosen to evaluate the health hazards of the inhalable particles. The instrument performs sampling through three probes, each providing different cut-points (~15, ~4 and ~2 μm) and collecting airborne particles on circular membrane filters. The increase in weight is measured with the beta-rays attenuation method. This paper describes an instrument developed for the semi-continuous measurement of aerosol mass and its categorization into three classes. These classes have been chosen to evaluate the health hazards of the inhalable particles. The instrument performs sampling through three probes, each providing different cut-points (approx.15, approx.4 and approx.2 μm) and collecting airborne particles on circular membrane filters. The increase in weight is measured with the beta-rays attenuation method.
SCHIRRIPA SPAGNOLO, G., Paolitti, D. (1994). Automatic system for three fractions sampling of aerosol particles in outdoor environments. AIR & WASTE, 44, 702-706 [10.1080/1073161X.1994.10467274].
Automatic system for three fractions sampling of aerosol particles in outdoor environments
SCHIRRIPA SPAGNOLO, Giuseppe;
1994-01-01
Abstract
This paper describes an instrument developed for the semi-continuous measurement of aerosol mass and its categorization into three classes. These classes have been chosen to evaluate the health hazards of the inhalable particles. The instrument performs sampling through three probes, each providing different cut-points (~15, ~4 and ~2 μm) and collecting airborne particles on circular membrane filters. The increase in weight is measured with the beta-rays attenuation method. This paper describes an instrument developed for the semi-continuous measurement of aerosol mass and its categorization into three classes. These classes have been chosen to evaluate the health hazards of the inhalable particles. The instrument performs sampling through three probes, each providing different cut-points (approx.15, approx.4 and approx.2 μm) and collecting airborne particles on circular membrane filters. The increase in weight is measured with the beta-rays attenuation method.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.