6 Steps To Understanding Particulate Monitoring In The Workplace

Research released from the World Health Organisation shows that air pollution in the workplace is an issue across the globe.

While pioneering dust monitoring systems are being introduced in more workplaces than ever, it’s important that employees themselves champion clean air and revolutionary technology, and this starts with understanding particle monitoring and why we need it..

Why should you care about particulate monitoring?

Being aware of the risks at work can help bring about much needed change in many industries. Experts are calling for air pollution to become identified as a separate risk factor in the workplace, so more can be done with particle monitoring and reduce the chance of premature illness for workers.

Every employee should be able to work in a place where the health and safety risks are properly controlled by an employer. However, it can be daunting not knowing where to start when attempting to challenge old workplace habits.

It helps for employees to educate themselves on how to implement this in their work environment, whether it be in mining, construction or other heavy process industries. This helps tackle air pollution in the workplace, as well as other hazards you might face.

Reducing the risk of air pollution

Here are some important need-to-know facts and information for employees who want to reduce their risk of being exposed to air pollution and harmful substances in the workplace.

1. Naturally reduce air pollution by making the change to renewable energy

Where possible, encourage employers to switch to renewable sources of energy. This naturally brings down the levels of particulates in the air, making for a cleaner environment and lowering air pollution in the workplace.

2. No environment is too challenging for particulate monitoring

Revolutionary safety technology and dust monitors can reduce risks in even the most polluted work environments. Create safety systems that are unique to your business and the risks from air pollution in the workplace drop significantly. Combined with the right RPE, you’ll be better protected from harmful particulates

3. Protect outdoor workers against air pollution

Don’t neglect dust monitoring in outdoor areas. Airborne particulates can be found within a 300-metre radius on construction sites which, when inhaled, can damage your lungs and have long-term health implications.

4. Make sure office workers aren’t breathing in polluted air

It’s not just manual labour workers who breathe in particulates and need their workspace monitored. Office workers and other administrative staff who work on or near the site can be breathing in the same harmful air, even from cabins and other portable offices. Dust monitoring systems can help here, too.

5. Assess and control the risks of air pollution in the workplace with a strategy

Even when risks appear minimal, it’s all about control. Implementing strategies means your workforce can be aware of any potential dangers and then act on them accordingly. Outline the processes to follow and RPE/PPE to use for each situation.

6. Know the facts about air pollution in the workplace

Around 12,000 deaths every year in the UK alone (according to HSE) are linked to exposure to damaging substances, such as silica dust, at work. It’s only by addressing these issues that risks can be minimised and air pollution in the workplace mitigated.

What progress has been made around air pollution in the workplace?

The good news is there are now fewer employers that don’t implement strategies in the workplace where there are increased risks, but there is always more that can be done and particulate monitoring is a big step forward in this area.

With so much awareness being raised about the damaging effects of air pollution in the workplace – and in general – companies are wising up to the risks. This means more employees can benefit from a healthier and cleaner work environment, and it’s never too late to learn.

Find out about how Trolex dust monitors like the Air XD can help you monitor particulate levels and create a safer working environment. Get in touch with the team to learn more.







    The Risks of Silica Dust Exposure

    It’s no secret there are different health and safety concerns for the industrial sector than most others. One of the most prevalent to arise in recent times is about silica dust exposure, and what this means for those working in areas with this risk.

    The nature of the work being done, and the environments it’s done in, have highlighted plenty of areas that need to be improved on – not only for the business as a whole but for the benefit of employees, without whom the industry would grind to a halt.

    Why is silica dust exposure important, and what can be done to protect those at risk?

    Silica, dust, and silicosis

    The first thing to know is silica dust exposure is not a new thing. It’s been happening for a long time, but as industrial processes and technology have improved over the years, we’ve been able to learn more about it. Knowing what it is, where it comes from and, more importantly, what the effects of it are allow us to make changes to help everyone.

    What is silica?

    Silica, also known as quartz, is a natural substance found all around the world. Sand, gravel, clay and some rocks and stones all include silica. While a material in its own right, it’s also a part of many common building materials like concrete, mortar, bricks and tiles. It’s not unusual for any building or construction site to work with silica dust.

    That’s right, even your home is made with some silica.

    Where does silica dust come from?

    Whenever silica is present, there’s a risk of silica dust exposure. Industrial workplaces and construction sites are just a couple of examples of places where the risk of inhaling silica dust is high.

    Grinding, drilling, cutting and similar tasks releases dust into the air. Depending on the material, this can be mostly harmless or, in the case of silica, dangerous.

    Silica dust, or respirable crystalline silica (RCS), is so fine that it can reach deep into the lungs when inhaled. If this happens often enough over a long period of time, it can lead to serious respiratory illnesses or even lung cancer.

    What causes silicosis?

    Silicosis is a serious respiratory illness caused by silica dust exposure over a long time. The longer someone is exposed to silica dust, the worse the symptoms of silicosis will become. Despite this, if exposed to extremely high levels of silica dust over a shorter period, acute silicosis can develop quickly, so you need to be aware of the risk.

    According to the CITB, about 3,000 construction workers suffer from lung and breathing problems from their work each year. Not only is this bad for businesses, but worse for workers. In 2005, the HSE estimated silica dust exposure was responsible for more than 500 construction workers deaths.

    What are the symptoms of silicosis?

    The symptoms of silicosis can include a persistent cough, shortness of breath, exhaustion and more. Depending on the severity of silica dust exposure, and for how long, the symptoms can appear very quickly or over a much longer period of time.

    After years of exposure, these symptoms will worsen and could lead to respiratory failure. This can often be fatal.

    Right now, silicosis can’t be cured. The lung damage is irreversible, but it can be managed – especially if caught early. If you’re at risk of silica dust exposure and notice these symptoms, it’s essential to go for a check-up to be safe.

    How to reduce the risk of silicosis and silica dust exposure

    While silicosis is a serious condition, and silica dust exposure is a real hazard, there are ways to reduce the risk of inhaling the substance.

    We’ve outlined five methods that increase the protection of workers in high risk areas involving silica dust – and these will also work with other hazardous airborne particulates, too.

    1. Wear suitable workwear in environments where there’s a risk of silica exposure

    One of the most effective ways of minimising silica dust exposure is to provide your workers with personal protective equipment (PPE), such as respirators, which cover the nose and mouth.

    Disposable respirators only give minimal protection and need to be changed regularly, so you’ll need to assess the working environment to decide if they can adequately protect your workers from silica dust inhalation – and whether this is a cost-effective solution.

    For even more hazardous environments, half or full-face respirators offer a better degree of protection – but they must be cleaned after every use.

    2. Keep equipment clean in workplaces with high levels of silica

    Contamination can be a major cause of concern in these environments. Workwear can be contaminated by silica dust – which is sometimes so fine that it cannot be seen. Even if something looks clean, it should always be washed separately to avoid the risk of contamination and to remove any invisible silica dust particles.

    There are specialist laundries that offer industrial cleaning services to reduce the risk further. Additionally, any equipment used in areas with silica dust should be thoroughly cleaned after each use and stored in a dust-free place.

    Refer back to the manual of each piece of equipment for specific cleaning and maintenance details, but some general tips for cleaning dusty equipment include:

    • Switch off and unplug electrical equipment
    • Use a light spray nozzle or lightly damp cloth over the surface
    • Dismantle tools and clean under covers and in between small pieces
    • Use a soft bristle brush to get in cracks and gaps, as well as cleaning notches on blades
    • Leave to dry before reassembling
    • Test equipment works before use.

    3. Use engineered controls for dust suppression

    With local exhaust ventilation (LEV), you can remove dust at its point of origin. This is a very effective form of dust suppression, as silica dust containment systems continuously remove and filter the contaminated air.

    There are a number of brands and devices out there to handle different levels of dust particles and environments. These range from built-in ventilation systems to portable fans and blowers that can be placed strategically in an area.

    4. Use wet methods when working in dust-heavy areas

    Before carrying out a task that produces a lot of dust, such as cutting or drilling, you can spray water on the material and area. This is known as the wet method, and suppresses dust particles being expelled into the air as they’re trapped by the moisture.

    Regular water works for this, and all you need is a spray bottle. A few sprays of the water onto the material will drastically reduce dust particles in the air.

    This is a useful method for reducing silica dust exposure, but it’s not perfect. Even when using the wet method, dust monitoring and respiratory protective equipment should be utilised.

    5. Monitor dust levels

    A dust monitor can assess the air quality in the workplace, whilst also measuring the size and concentration of any airborne particles, such as silica dust. This is one of the best preventative measures you can take to help reduce the risk of silicosis, as constantly monitoring the air in real time allows you to easily spot any areas of concern.

    Most dust monitors can only measure one particle size at a time, but the AIR XD Real-Time Dust Monitor, XD One Personal Dust Monitor and Air XS Silica Monitor uses advanced laser technology to monitor multiple sizes at once, adding an extra level of protection against both silica dust exposure and silicosis.

    Find out more about reducing silica dust exposure

    We can’t state enough just how much of a hazard silica dust exposure is – to both businesses and workers. Anything that can be done, such as the steps above, helps ensure the well-being of the workers most at risk. The more steps you take, the better the conditions and lower the chance of developing silicosis.

    Reducing silica exposure in the workplace requires commitment, but if you’re interested in finding out how to protect your workers against the dangers of silica inhalation and reduce the risk of silicosis in your workplace, get in touch.







      An introduction to dust monitoring

      As employers, we have a responsibility to make sure our people are protected at work. This includes dust monitoring, as some particles can be harmful to a worker’s health.

      The World Health Organisation (WHO) estimates that around 7 million people die every year from exposure to fine particles, leading to the inhalation of hazardous particulate matter, such as silica dust. As decision makers and employers, we can work to significantly reduce this number.

      How? By employing modern safety technology for dust monitoring.

      Effective particulate monitoring procedures and units can help us to protect not only the lives of our people, but the financial future of our businesses. We’re going to explain the fundamentals of dust monitoring and particulate matter.

      Dust monitoring jargon

      Here’s a basic introduction to some common language around particulate matter and dust monitoring. These terms are what you’ll find across the industries and workplaces dealing with dust monitoring.

      You can find a longer glossary of technology types, Air XD-specific terms, diseases and legislation in our Jargon Buster.

      For now, the basics; size measurements in particulate monitoring:

      • µm – This is the unit of measurement used to describe the size of an individual particle i.e. 1µm (or a micron/micrometre) = 1 millionth of a meter. For example, a human hair is typically around 60µm diameter.
      • PM (Particulate Matter) – a mix of solid and liquid droplets suspended in the air to form. PM10 refers to all particles of 10µm and below in a sample. Our engineering team mocked up a quick graph that may be easier to understand. It is common practice for legislation to monitor PM1, PM2.5, PM4.25 and PM10 in particular.
      • nm – This is short for nanometre, for particulate sizes which are smaller than 1µm. For example, when we say the Air XD’s range starts at 0.38µm, this is expressed as 380nm in nanometres.
      • Ug/m³ – A measurement of particulate matter present in a given amount of cubic air – the measurement most frequently used by legislation bodies and policies.
      • TSP (Total Suspended Particulates) – a regulatory measurement of the total mass concentration of particulate matter in a concentration of air or liquid.

      What Is Dust Monitoring?

      Simply, dust monitoring is detecting and assessing the particulate matter (or PM) in the air. This particulate matter is a mix of liquid droplets and solid particles in the air, which is monitored by concentration and size. Once known, controls can be implemented to reduce the risk of inhalation before severe consequences arise.

      Each work environment is different, so there are various options on safety technologies for particular monitoring. They provide different levels of accuracy and depth, so there’s a solution for every situation, environment and organisation.

      One such solution, like the Air XD, is a modern dust monitor providing in-depth detail of particulate matter in the air. It covers a wide-spectrum of potentially hazardous substances.

      Why do we need dust monitoring?

      Dust monitoring is important for several reasons. Not only is compliance with the law a big part of this, but good dust monitoring products, like the Air XD or the XD One, will reduce the risk of illness, such as lung cancer or silicosis, and save a lot of lives.

      From a business point of view, workers suffering from illness are less productive and need to be replaced more often. This increases training costs, and there’s no guarantee that productivity won’t drop. Protection against potential litigation claims are also a factor to consider.

      Invest in good systems and training and any business will be in a better position in the long term.

      Dangers of dust inhalation

      Respirable dust is the invisible killer that no-one is talking about. This infographic demonstrates the effect of each particulate on the human body and provides examples of each, so you know what to look out for and what those effects look like in reality.

      Long-term exposure to some of the most dangerous respirable particulates <2µm could lead to life-threatening diseases like silicosis, COPD, Black Lung Disease and lung cancers.

      If you’d like to know more about dust monitoring, it’s advantages and how to get started with the right systems, get in touch with a member of our team now.