Light pollution – what it is and how we combat it

Electrical lighting is an amazing thing and has more than helped shape the world as we know it today. Just try to imagine your life without it. Difficult isn’t it?

 

If it’s not used wisely, however, it can impact the environment greatly. For example, it’s estimated that around 15-20% of the world’s electricity production is used to power lighting. This in turn leads to around 5% of worldwide greenhouse gas emissions.

 

One environmental impact of lighting that’s less talked about is caused directly by lighting itself – light pollution.

 

So what is it?

 

One example of light pollution is skyglow. This type of light pollution comes about because things like street and building lights aren’t aimed just where they’re needed. Instead, a large proportion of their output goes directly, or is reflected, upwards and is scattered by the atmosphere – this virtually obscures anything above it such as the Milky Way and stars.

 

How we work to avoid skyglow:

  • All our lighting designs and installations seek to minimise this type of light pollution as much as possible. They never direct light straight to the sky – it would be a total ‘waste’ and compromise what we’re trying to achieve. So, all our products have shields that prevent this.
  • Our luminaires, with their proprietary lenses, are also designed to produce an even light, just where it’s needed, rather than an intense light in one area that would cause greater reflection up to the sky and add to skyglow.
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As well as skyglow there are three other main types of recognised light pollution. These are:

  • Glare – excessive brightness that causes visual discomfort.
  • Light spill – light falling where it’s not intended, needed or wanted.
  • Clutter – bright, confusing, and excessive groupings of light sources.

You’ve probably experienced these on a personal level. The dazzle of an oncoming car’s headlights – glare. A neighbour’s garden security lighting shining in your home – spill. If you’re standing in somewhere like the middle of Times Square or Piccadilly Circus– clutter.

 

They can all happen with industrial lighting too. So in the rest of this short blog, we’ll focus on just these aspects, and what we as an environmentally aware, specialist lighting company do to combat them,

 

Industrial lighting glare:

 

Just the same as a car’s headlight glare can cause safety issues, industrial glare can too. Poorly configured aviation apron lighting produces significant safety problems for staff and passengers on the ground, and pilots in their planes. It’s the same for ports and maritime terminal lighting. If high mast crane lighting isn’t properly aimed, with the right shielding also in place, those working on the ground and the crane operators themselves can be affected by harsh glare and safety can be compromised. Glare can also be a problem with sports lighting – for the players, spectators, and broadcasters.

 

Our lighting Design and Engineering teams have years of experience in creating lighting solutions for airports, ports, and sporting venues. We’ve completed over 100 global airport projects and are the leading supplier of LED lighting systems for airport aprons. We’re also the preferred supplier to many of the world’s busiest and biggest port and terminal operators. We’re a leading sports lighting supplier too. So, we know more than anyone about how to create lighting solutions that minimise the risks of glare – in all applications and environments around the world.

 

How we prevent glare:

 

  • Our luminaires have been specially designed with glare in mind. Our Titan Series, one of our flagship products, is manufactured with our propriety optics which deliver maximum light levels on very precise designated areas. Plus, its asymmetric floodlighting provides an excellent solution for low glare applications. Our Modus R Series for sports venues has been designed to ensure low-glare, broadcast-ready, flicker-free lighting too.

  • We test, test, and test again. When we start a project – new build or retrofit – one of the very first things we do is to test our designs on paper to see where glare may be an issue. We then test our proposed designs using things like DIAlux software to make sure they’ll reduce any glare to an absolute minimum. We don’t stop there. Before we install a lighting system we test for any glare in-situ – at the points where it could make an impact. For example, at airports we make observation tests not just at ground level but also at the various heights pilots would be depending on the type of plane.

  • All our lighting installations and products are also designed to be as ‘future-proofed’ as possible. This means, for example, that if changes to the layout of an airport are needed we can easily add extra luminaires to allow for these changes without causing any increase in glare.
 

Industrial lighting spill:

 

This is less of a problem when it comes to airports and ports, as they’re usually situated away from urban areas. Sports venues, however, such as soccer grounds, are often found in the middle of cities and close to people’s homes. Poorly designed or installed venue lighting can spill a lot of harsh light – during matches and evening training. Just imagine what this would mean for you if it were shining in your bedroom when you needed to be at work early the next day.

 

Midstream light spill solutions:

  • Here again, our designers and engineers know exactly what to look for before they even put pen to paper.

  • Our Modus S Series, for sports applications, has been designed with specialty light shields to provide high uniformity as well as to specifically reduce light spill to provide an ideal solution for venues in urban areas.

  • We’re also experts when it comes to national and local lighting planning regulations. So we know:

    • Exactly what regulations need to be complied with.
    • When any additional planning permission is needed.
    • How to stay compliant if any things change later down the line.
 

Industrial lighting clutter:

 

This can be a problem almost anywhere if the lighting design is poor and too many light sources are involved. Let’s think again about somewhere like Times Square. Each of the illuminated advertising billboards is vying for your attention. To make their advert stand out, advertisers will ramp up their lighting to the maximum. Other advertisers then follow suit. The results in an excessive grouping of lights that can be hard to distinguish and can be confusing. Light clutter often causes glare issues and also adds to skyglow pollution.

 

An example of light clutter in an industrial setting can be found in port and terminal layouts. If a port’s lighting system were made up of a close series of lamppost high mast around the entire area with each holding a lamp that’s always lit and directs light straight in front it would produce light clutter. The same can be seen on poorly designed motorways, especially on their slip roads.

 

How we stop light clutter:

  • On the whole, our lighting solutions are housed on high masts – especially in ports and terminals. This helps prevent clutter from reaching anyone at lower levels – such as the road or the deck of a ship.

  • Also, even when they’re all on the same mast, our lights are positioned so as to not ‘compete’ with each other. Our lighting designs aim each luminaire slightly differently to create a uniform level of light across an entire area – thus avoiding clutter.
 

A quick summary of just some other environmental benefits LED lighting provides compared to traditional lighting

 

  • They’re much more efficient – they use much less electricity, so far less global warming CO2 is produced to run them.
  • They give a better quality of light and its distribution – so a lot fewer lamps are needed to cover the same area. This means less need to be produced which leads to environmental savings across the whole production to distribution chain.
  • As they last much longer, not as many need to be produced – giving the same environmental saving as above.
  • They can be controlled very easily and work with things like motion sensors. So, for example, if an area of a port wasn’t being used it can be left unlit and the lights only come on when someone is in that area. They’re also dimmable. Both of these can produce big energy and environmental savings that can’t be achieved with traditional lighting which can’t be dimmed or come on instantly.
  • Traditional lighting can contain environmentally harmful, toxic elements – these aren’t found in LED lights.

 

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