Breaking down all types and sizes of rocks in quarrying, through crushing and screening processes generate high levels of respirable dust. When the rocks are crushed and then screened, large volumes of both visible and invisible dust becomes airborne and travels across the entire quarry site, presenting a risk for all workers.
As in mining, quarrying also involves a large amount of drilling, blasting and other methods to break down rocks and spaces for processing and extracting. These processes lead to rocks, clay and other natural materials becoming very small and making them airborne and easily inhaled, leading to severe health risks for workers.
Once all materials have been extracted and processed, they’re stored in designated areas after collection. Here, natural materials are stored in stockpiles, where they grind against other materials and minerals, creating more and more respirable dust. When these minerals are used, the settled dust becomes disturbed and airborne.
Maintenance of all types of machinery, vehicles and minerals, such as rock and sand in quarrying can generate respirable dust. If dust from screening, drilling and even in stockpiles isn’t correctly maintained it becomes dormant. Poor maintenance and handling processes like dry sweeping can spread dust, presenting health issues.
Heavy-duty vehicles used in quarrying such as haul trucks and conveyors often involve moving large volumes of natural minerals which have been processed and are fine and small in size. This can present risk of airborne dust across all areas of the site, as well as other dust which may be trapped in wheels and cabs of the vehicle.
Smaller, non-power tools such as chisels can generate high levels of respirable dust, such as silica, in stone works. A vital job for creating features and designs within stone, this process requires chipping and breaking down part of the stone into fine dust as a byproduct, which becomes airborne and poses significant risk to workers.
CNC machines use a computerised operation to cut and shape large slabs of marble and other materials in stone works, often generating dust as a byproduct. Without proper dust control measures, such as water to damp down the dust or dust extraction units added on the machine, it can become airborne and easily inhalable.
Dust can be generated from handheld drills, grinders and other power tools used in stone works. The high intensity from the automation of these tools means stones are ground and broken down faster, leading to higher levels of airborne dust, especially in and around the breathing zone of those using the power tools.
It’s not just on CNC machinery where water-controlled processes are essential to limiting dust control. Any large machinery jobs involving polishing, cutting and finishing generates high levels of respirable dust which, and without effective water-control to dampen the dust making it heavier, dust subsequently becomes airborne.
As there are various different ways respirable dust can be generated in stone work industries, it’s essential that maintenance is as effective in relation to the workplace you’re in to prevent further dust generation. Dry sweeping, lack of dust extraction and general ignorance of the issue can lead to dormant dust not being dealt with properly.
Creating reinforced structures, tracks and enforcing lighting in tunnelling requires demolition of pre-existing underground areas through explosives. These heavy-duty industrial processes create large volumes of respirable dust due to the destroying of natural materials such as rock and sand, presenting major risk to workers health.
Alongside demolition to create tunnels, Tunnel Boring Machines (TBM) are also used. The sheer velocity and speed which TBM’s operate at often generates high levels of respirable dust, and due to conditions of the environment underground, this dust cannot always be properly controlled, posing risk when workers enter the tunnel.
A construction technique where concrete or mortar is sprayed onto a surface for reinforcement, shotcreting involves large volumes of dust throughout the tunnel construction. The shotcreting process causes splash-back of dried concrete, which is ground down and creates dust, putting workers on the job at risk of health issues.
It’s not just the creation of tunnels that creates high levels of dust. Maintenance and support processes such as rock bolting in tunnelling also creates airborne respirable dust. By drilling directly into the rock and installing bolts to make the structure more stable, respirable dust is generated from the rock, exposing all underground workers.
Rocks and stones often need transporting from one area of a tunnel to another for enforcing areas. With the brittle nature of these materials and the rugged environment, these materials easily break down. As well as this, the large industrial vehicles underground kick up sand and dirt, creating large volumes of respirable dust.
Using damping methods helps to reduce dust clouds by making dust clouds heavier, making it less likely to become airborne and therefore less likely to be inhaled. There’s a few methods for this:
Similar to on-tool water suppression, there are a few ways to reduce dust directly from the tools generating the dust. Local Exhaust Ventilation (LEV) systems can be fitted on various types of construction tools and consist of various parts:
Whilst introducing effective control measures to prevent exposure to dust is valuable, finding ways to limit dust being generated in the first place is also important. Some effective methods include:
As a final solution for controlling dust exposure in construction, respiratory protective equipment (RPE) and personal protective equipment (PPE) can help to limit your exposure to dust on construction sites if selected correctly. Effective RPE can include:
Despite dust monitoring being an effective method of reducing dust levels, it’s much more effective when working in real-time, as you can see live data and receive live alarms when you’re exposed to dangerous levels of dust, which include:
Arguably the most well-known and common risk associated with exposure to hazardous dusts in the workplace relate to occupational lung diseases. Diseases such as Silicosis, Chronic Obstructive Pulmonary Disease (COPD), Black Lung Disease and occupational lung cancer all are associated with dust inhalation in the workplace.
Whilst long-term exposure to breathing in dust can lead to lung diseases, initial, short-term exposure to hazardous dusts can lead to respiratory illness and irritation. Breathing in dust such as Respirable Crystalline Silica (RCS) and wood dust can cause serious respiratory diseases; the NHS claim it’s the third biggest cause of death in England.
Exposure to breathing in hazardous dust can lead to cardiovascular diseases and other heart and blood vessel issues. Dust and hazardous particulates can easily travel through your bloodstream and deep into your lungs, damaging your blood vessels in the process. This can increase blood pressure and make it more likely to give you blood clots.
The British Thoracic Society reports that occupational asthma is responsible for roughly 1/6 cases of adult-onset asthma. Occupational asthma can be caused by various types of dust in multiple different industries, such as flour dust, wood dust, grain dust and various fumes from metals.
There have been examples of various other health concerns relating to workplace exposure to hazardous dust. Skin, eye and nose irritation, as well as some rare examples of kidney disease have all been linked to examples where workers have failed to protect themselves against hazardous dust.
