Hazard Prevention and Control in the Work Environment ...

1 Hazard Prevention and Control in the Work Environment : Airborne DustWHO/SDE/ 1 - Dust: Definitions and ConceptsAirborne contaminants occur in the gaseous form (gases and vapours) or as aerosols. Inscientific terminology, an aerosol is defined as a system of particles suspended in a gaseousmedium, usually air in the context of occupational hygiene, is usually air. Aerosols may existin the form of airborne dusts, sprays, mists, smokes and fumes. In the occupational setting,all these forms may be important because they relate to a wide range of occupationaldiseases.

2 Airborne dusts are of particular concern because they are well known to beassociated with classical widespread occupational lung diseases such as the pneumoconioses,as well as with systemic intoxications such as lead poisoning, especially at higher levels ofexposure. But, in the modern era, there is also increasing interest in other dust-relateddiseases, such as cancer, asthma, allergic alveolitis, and irritation, as well as a whole rangeof non-respiratory illnesses, which may occur at much lower exposure levels. This documentaims to help reduce the risk of these diseases by aiding better Control of dust in the first and fundamental step in the Control of hazards is their recognition.

3 Thesystematic approach to recognition is described in Chapter 4. But recognition requires a clearunderstanding of the nature, origin, mechanisms of generation and release and sources of theparticles, as well as knowledge on the conditions of exposure and possible associated illeffects. This is essential to establish priorities for action and to select appropriate controlstrategies. Furthermore, permanent effective Control of specific hazards like dust needs theright approach to management in the workplace. Chapters 1 and 2, therefore, deal with theproperties of dust and how it causes disease.

4 Chapter 3 discusses the relationship ofmanagement practice and dust Dust as an occupational hazardAccording to the International Standardization Organization (ISO 4225 - ISO, 1994),"Dust: small solid particles, conventionally taken as those particles below 75 m indiameter, which settle out under their own weight but which may remain suspended for sometime". According to the "Glossary of Atmospheric Chemistry Terms" (IUPAC, 1990), "Dust:Small, dry, solid particles projected into the air by natural forces, such as wind, volcaniceruption, and by mechanical or man-made processes such as crushing, grinding, milling,drilling, demolition, shovelling, conveying, screening, bagging, and sweeping.

5 Dust particlesare usually in the size range from about 1 to 100 m in diameter, and they settle slowlyunder the influence of gravity."However, in referring to particle size of airborne dust, the term "particle diameter" aloneis an over simplification, since the geometric size of a particle does not fully explain how itbehaves in its airborne state. Therefore, the most appropriate measure of particle size, formost occupational hygiene situations, is particle aerodynamic diameter, defined as "thediameter of a hypothetical sphere of density 1 g/cm3 having the same terminal settlingvelocity in calm air as the particle in question, regardless of its geometric size, shapeand true density.

6 " The aerodynamic diameter expressed in this way is appropriate becauseHazard Prevention and Control in the Work Environment : Airborne DustWHO/SDE/ relates closely to the ability of the particle to penetrate and deposit at different sites of therespiratory tract, as well as to particle transport in aerosol sampling and filtration are other definitions of particle size, relating, for example, to the behaviour ofparticles as they move by diffusion or under the influence of electrical forces. But these aregenerally of secondary importance as far as airborne dust in the workplace is aerosol science, it is generally accepted that particles with aerodynamic diameter >50 m do not usually remain airborne very long: they have a terminal velocity >7 , depending on the conditions, particles even >100 m may become (but hardlyremain) airborne.

7 Furthermore, dust particles are frequently found with dimensionsconsiderably <1 m and, for these, settling due to gravity is negligible for all practicalpurposes. The terminal velocity of a 1- m particle is about mm/sec, so movement withthe air is more important than sedimentation through it. Therefore, summarizing in thepresent context, it is considered that dusts are solid particles, ranging in size from below 1 m up to at least 100 m, which may be or become airborne, depending on their origin,physical characteristics and ambient of the types of dust found in the work Environment include: mineral dusts, such as those containing free crystalline silica ( , as quartz), coaland cement dusts; metallic dusts, such as lead, cadmium, nickel, and beryllium dusts.

8 Other chemical dusts, , many bulk chemicals and pesticides: organic and vegetable dusts, such as flour, wood, cotton and tea dusts, pollens; biohazards, such as viable particles, moulds and sporesDusts are generated not only by work processes, but may also occur naturally, ,pollens, volcanic ashes, and dusts, such as asbestos and other such materials, have been shown to presentspecial health problems primarily related to the shape of the particles. In relation to health,particles with diameter < 3 m, length > 5 m, and aspect ratio (length to width) greaterthan or equal to 3 to 1, are classified as "fibres" (WHO, 1997).

9 Examples of fibres includeasbestos (comprising two groups of minerals: the serpentines, , chrysotile, and theamphiboles, , crocidolite - "blue asbestos"). Other examples include synthetic fibrousmaterials such as rockwool (or stonewool) and glass wool, as well as ceramic, aramid, nylon,and carbon and silicon carbide in occupational hygiene, the term "airborne dust" is used, in the related field ofenvironmental hygiene, concerned with pollution of the general atmospheric Environment ,the term "suspended particulate matter" is often aerodynamic behaviour of airborne particles is very important in all areas ofmeasurement and Control of dust exposure.

10 Detailed information, including the relevantHazard Prevention and Control in the Work Environment : Airborne DustWHO/SDE/ , can be found in the specialized aerosol science literature (Green and Lane, 1964;Fuchs, 1964; Hinds, 1982; Vincent, 1989 and 1995; Willeke and Baron, 1993). Hazard Prevention and Control in the Work Environment : Airborne DustWHO/SDE/ Penetration and deposition of particles in the human respiratory tractFor better understanding of this section, a schematic representation of the respiratorysystem is presented in Figure 1-1, indicating the different regions, namely, nasopharyngeal(or extrathoracic region), tracheobronchial region and alveolar 1-1 - Schematic representation of the human respiratory tractParticles small enough to stay airborne may be inhaled through the nose (nasal route) orthe mouth (oral route).