Characterizing The Structure Of Some Respirable Dust By Means Of Fractal Geometry

Characterizing the structure of such open-structured dusts such as diesel soot and those present in welding fumes plus any other dusts which were initially formed by precipitation or agglomoration of subsidiary units in a flame process has always been a difficult task. Recently, scientists have been able to use the concepts of fractal geometry to model the growth of diesel soot and fume fine particles and characterize their structure using fractal dimensions. The measured fractal dimension of a diesel exhaust at various levels of scrutiny can be used to study the health hazards posed by the soot. Thus, the fractal dimensions of the overall structure can be related to the dynamics of the dust both empirically and theoretically. In this communication, the use of fractal dimensions to describe the structure of smoke and fine particles which pose a respirable hazard are reviewed. Experimental studies linking the measured fractal dimensions of the fine particles to dynamics of the fine particles in respirators and in the lung are outlined.