In the pharmaceutical industry as well as in other industrial branches, various processes and production steps are employed that all have one thing in common: They produce emissions that are subsequently present in the environment, and in the air we breathe.
Depending on their composition, these emissions are either only disturbing - because they deposit on surfaces which then must be cleaned, or even are hazardous for employees - as they are inhaled while afloat in the breathing air, and can cause diseases.
This article explains how emissions are produced - with specific consideration on dusts: What properties do they have? What are their effects? What can be done to contain the spreading of dusts?
The development of emissions is as diverse as the various production processes themselves. The following distinctions apply:
In the pharmaceutical industry, for example, tablet pressing is a process in which dusts are released. Of course, emissions are also generated during mixing, coating and other processes. The spreading of emissions depends on the following properties of the substances:
If the substance is gaseous, it spreads evenly because the gas molecules float (disperse) in the air. In liquid or solid physical state - e.g. with dusts - the dispersion, meaning the distribution of the particles in the air, depends on the droplet or particle size: The smaller the size, the easier the particles will float or hover in the air and can be further spread.
Emissions present in solid form are known as dust. This term covers all fine, solid particles that occur in different sizes in gases and especially in air. The particles themselves can be of the most various origin. Their suspension duration – depending on size – can also vary.
Not all dusts are alike!
Depending on how and where dust arises, certain properties result from it with corresponding effects to humans and the environment. If these properties are harmful, solutions must be found to eliminate the dust.
When dusts are processed - or in general when they occur - it must be noted that, depending on composition and occurrence, a hazard may arise for employees. In terms of occupational safety, limit values are defined as a function of particle size and particle shape. Compliance with these limits is checked by measuring the concentration in the air.
This dust can be breathed in through mouth and nose. Particles with a size of up to 100µm are retained by nose hairs or the mucous membranes.
Example: Pollen or cement dust
Alveolar dust (A-dust)
Alveolar dust is fine dust that can penetrate as far as the pulmonary alveoli (aveolar), as the particles are only 5 µm (max.) in size.
Example: Welding fumes
Ultra-fine dust (U-dust)
U-dust stands for "ultra-fine dust". These are nanoparticles with a size <100 nm.
Example: Products of combustion processes, in lacquers and coatings
Fibers are elongated particles of inorganic or organic materials. Here, all fibers >5 µm in length and with diameters <3 µm and such that exceed the length-to-diameter ratio of 3:1 pose a danger, as they can penetrate into deeper airways.
Example: Asbestos, glass wool, cotton dust
If dusts are not only generated in production but are used to manufacture a product, the following characteristics must be taken into account:
With sticky dusts, the particles adhere to each other and to surfaces. This can lead to bridge formation in the production plant equipment.
Example: Coating of tablets
Due to their material strength and surface quality, the abrasive dust particles can cause damage to the production plant equipment over time. For this reason, the flow velocities and wall thicknesses must be taken into account when dimensioning the pipelines.
These particles draw moisture from out of the air and then adhere together or liquefy. They are then no longer dry and pourable, which can affect further production steps.
The effects of dust depend on various factors. Dust itself, for example, can pose a problem simply because of the amount of dust present. The human body, especially the respiratory tract, has various protective systems to counteract the dust as long as the amount is within limits. However, the effect also depends on the aforementioned properties - for example how far particles can make their way into the organism.
To determine the hazard potential, not only the size of the particles but also their composition is important. Depending on the material contents, even larger particles that only reach the upper respiratory tract can pose a hazard. For this reason, the toxicological properties must be taken into account:
The first step is to try to prevent the occurrence of dust. This can be done by selecting appropriate material properties - as an example, less dust is produced when using agglomerating substances instead of fine substances.
If dust nonetheless occurs, the hazard can be reduced by using fewer toxic substances.
Technical measures include solutions, which absorb occurring dust. This involves encapsulation of dust-generating process steps and using water-spray systems or fans.
An efficient method in protecting humans and the environment is dust extraction: Here, the dust-laden air is directly drawn off and cleaned in dedusting systems using filter elements adapted for the application. Extracted dust remains in the filter system and can be disposed of accordingly.
Depending on particle size and properties, there are different possibilities for selection, as shown exemplary in the following overview. When planning a filter system, it is therefore important to communicate the dust properties to the filter-system manufacturer for proper filter selection and dimensioning.
Apart from planning the staff assignment, organizational measures also include regular cleaning and ventilation of the relevant production areas in order to keep the workplace exposure low.
If the occurrence of dust cannot be prevented despite all efforts and the risk for employees remains high, the use of personal protective equipment is called for. Here, the choice of the equipment also depends on the properties of the occurring dust.
Dust is an everyday companion that cannot be completely avoided. However, whether it is only a nuisance or a health hazard depends on different factors:
In addition to regular cleaning, there are various technical solutions, such as filter systems, to protect humans and the environment and reduce the negative influence of dust on the production of sensitive goods.