CAT | LED
Pioneering smart-lighting revolutionises European city. PLUS: President Obama gives Detroit an LED parting gift. AND: Australia launches free LED luminaire scheme. Lux 31 January 2017
detroit lighting · energy efficient lighting · led street lighting · Novel Energy Lighting · smart lighting · smart phone lighting
27
LED helps to make RAF more environmentally friendly
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The concrete cold-war era Hardened Aircraft Shelters (HAS) under which the RAF’s Typhoon fighters are stored received a thoughtful LED make-over.
Senior project manager at the Defence Infrastructure Organisation, Jim Ellistone, in the high visibility jacket , helped to deliver a project that was both efficient and sustainable.
Despite facing severe budget restraints, a project has been delivered that is both energy efficient and sustainable and the RAF’s decision to use LED lighting, for one of first times on a new project, played an important role.
The building has been so well received within the defence community that it has been awarded the Ministry of Defence’s prestigious Sanctuary Award for Sustainability.
RAF Lossiemouth often bears the brunt of the West’s increasingly fractious relationship with Russia, with RAF Typhoon fighters being dispatched from the base on a regular basis to intercept Russian aircraft, which often play cat and mouse with Britain’s air defences. This means the base is constantly in use.
Sustainability was put at the heart of the project and energy efficiency was key. The new building and the refurbishment of the older buildings also had to be completed in a robust fashion, so as to ensure long, low-cost use.
In order achieve these aims, LED was quickly considered and pitched.
‘There were a number compelling reasons to change the lighting in the older facilities, principally because the buildings involved are used by the squadron 24 hours a day. But like any project that involves spending public money, it had to be justified,’ commented senior project manager at the Defence Infrastructure Organisation, Jim Ellistone , who worked on the project.
The new building would have a number of uses, requiring different levels of lighting. Besides the executive and administrative offices, the new headquarters building would provide a state of the art secure facility that would be used to plan and brief complex flying operations.
The building would also accommodates the Squadron’s engineering and logistics facilities and the Survival Equipment Section, which maintains all of the high tech equipment worn by Typhoon pilots during flight.
‘Everyone involved in the process quickly recognised the benefits of new lighting, the figures showed that, due to energy savings, the project would pay for itself in just over four years,’ Ellistone added.
In defence projects, the cheapest capital option is often used, due to the budget constraints that the MoD is placed under by the government of the day, however the benefits of LED were quickly provable to authorities.
‘This was an easy change to sell and was, in many ways, like pushing on an open door. The benefits of LED are now well established and we knew that a case for the technology had to be put forward at the first planning stage,’ Ellistone commented.
The highly intricate work that RAF engineers have to carry out on the Typhoon fighters, which are some of the RAF’s newest and most agile aircraft, means that excellent light quality is required. Such is the 24-hour nature of the base, repairs could be needed any time during the the day and night.
The aircraft are stored under concrete Cold War era Hardened Aircraft Shelters (HAS), which had not been internally upgraded since the days of Ronald Reagan and Mikhail Gorbachev. Energy efficient LEDs, offering the necessary light levels were installed as replacements to older models. LEDs were also used in the lines on the base’s concrete floor, which the aircraft use as guidance when they pull forward.
‘We had to be careful when specifying fixtures for the HAS, when the jet engines run in the hangers, fumes come from the wings and rise upwards,’ Ellistone said of the work. ‘We had to make sure, in these circumstances that the lights did not melt.’
The main squadron headquarters were delivered a month early, with a saving on the original tender target price of more than £1 million.
In reviewing the project on completion, the Combined Project Delivery Team came to the conclusion that a ‘real and deep sustainability gain’ was made by ‘stepping back’ to look at the fundamentals of what they were being asked to do.
This project is an example of reasoned arguments being used to build up a case for change and then, in timely fashion, a sustainable solution being agreed and delivered on time and within budget.
Visit www.novelenergylighting.com to explore our range of office and warehouse LED lighting, or call us today: 0208-540-8287
led hanger lighting · led high bays · led lighting · led office lighting · led panels · led tubes · led warehouse lighting · Novel Energy Lighting
Scientist who discovered human centric lighting shares tips with Lux. PLUS: Lighting based indoor positioning set to revolutionise US stores. AND: Health fears makes city think twice about LED. Lux Today 24 January 2017
human centric lighting · led office lighting · led panels · led tubes · lifi · light positioning · Novel Energy Lighting
12
Lighting industry needs to ‘wake up’ to IoT hack threat
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| Ken Munro, the UK’s leading ‘ethical hacker’ speaking at this year’s LuxLive |
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| Companies are simply not doing enough to improve IoT security, security experts are warning. |
connected home technologies · connected lighting · internet of things · iot · iot security · led lighting · Novel Energy Lighting · trojan horse
Historically, lighting in farming and agriculture was seen purely from a human standpoint.
While all the sound and fury has been coming from the human-centric lobby, there’s been a quiet revolution going on in the agricultural sector. LED technology has brought massive change to the lighting for horticulture sector and the rearing of livestock. By creating LED systems that offer special spectral outputs, crop and livestock production is enhanced, reducing costs and increasing profits for farmers, while at the same time improving the quality of the product.
Historically, lighting in agriculture was seen purely from a human standpoint. It may be that our light sources left us with little option than to make the best use, or what we perceived as best use, of those sources. Now that we have a ‘tunable’ light source we are able to focus on providing the plants, birds and beasts with the best growing environment.
Horticultural lighting
Research has identified specific wavelengths that are needed to promote growth and fruiting in plants. By applying LED technology it has been possible to create dedicated lighting systems.
For example: chlorophyll absorption occurs in two ranges, 400-500nm and 600-700nm, and that means plants grow most efficiently under blue and red light. It’s worth noting here that plants are seen to be green because they reflect that wavelength. Green light is of no use to the plant at all.
The amount of light required for photosynthesis to take place matters because there is a direct relationship between the two, up to a point. There is a light saturation point where the plant cannot absorb any more chlorophyll, at around 700 micromoles per m2 per second. Any further illumination is a waste of energy (and money).
EXPLAINER: Micromoles
Lighting for plants is measured in micro-moles per second. Micromoles measure the number of photons that pass through a target area; one micromole of light equals a little over 62 quadrillion photons. That sounds very complicated but a new range of spectrometers is now available that provides micromoles per m2 per second readings as simply as they do readings in Lux.
Artificial lighting has been used historically to help extend the ‘growing day’ but we are seeing a move towards total managed environments where artificial lighting provides 100 percent of the illumination in the growing sheds. The LED systems are tuned to provide specific wavelengths according to the growth cycle of the specific plants.
Blue light can stimulate flowers to open up, beginning the plant’s daytime circadian cycle
Red light (and enhanced red light) is good for stem growth and flowering
Infra-red light can mimic the effect of sunset
The ratio between blue and red LEDs is specific to the plant type.
Poultry shed lighting
Getting the light right for poultry breeding is essential, because getting it wrong can be catastrophic for the population of a poultry shed. Stressed fowl become aggressive and it has been known for entire flocks of chickens and turkeys to be destroyed overnight as a consequence of the violence wreaked by the birds.
Research has identified the wavelengths that domestic fowl best respond to and it has been possible to create lighting that mimics the forest under-canopy lighting that birds ‘remember’ in their genetic make-up. This means that domestic fowl have peak sensitivity in the blue-green range, from around 500nm – 700nm, but there is also a substantial response in the UV(A) range – chickens can see ultra violet light that is invisible to humans.
Light at the red end of the spectrum needs to be handled very carefully. Red light promotes sexual activity and growth rate, though it is also thought that the excitation caused by the red wavelength can also be the cause of aggressive behaviour in well-populated sheds.
For the producer, the ideal situation is to create an environment where poultry do not exhibit stressful behaviour, such as over-eating. Layers also need to produce eggs with consistent sizes and ample shell thickness and fowl grown for their meat need sufficient environmental stimulation so that they move around, helping muscle development.
An LED system using specific wavelengths during the course of the day can result in an ideal outcome for the producer. It will produce calm birds that eat less but convert more of that food into body mass, they also come to maturity more quickly in a stress-free state, which means better meat for the customer.
Pig and beef unit lighting
Generally speaking, a lot of research still needs to be done on lighting for pigs and cattle. As we get closer to the human condition, the effect of 100 percent artificial lighting environments suggest that the situation is complicated.
Some of the data is to be expected:
24-hour illumination of pig sheds has reported detrimental effects
24-hour darkness is not an optimal condition
Piglets and weanlings benefit from additional daylight hours, but reproductive behaviour in boars is enhanced by reduced daylight hours. It all sounds very human.
From the point of view of the unit manager, one piece of information is valuable; neither pigs nor cattle appear to have any response to red light. This means that units can be supervised during the night-time by using red lighting – sufficient for security and over-seeing without upsetting the desired circadian rhythms of the beasts themselves.
As research data becomes available, it will be possible to design a lighting regime for pig units and cattle units that is cost-effective for the producer and most beneficial for the beasts themselves.
In summary, as the world’s demand for food increases, producers will need to find the most efficient ways of raising crops and livestock. For those products to have any real nutritional value for the (literal) consumer, then it is beholden on those producers to make sure that growing conditions are optimised for each species. LED lighting is well-placed to deliver the appropriate illumination.
agricultural lighting · horticultural lighting · led agriculture · led lighting · Novel Energy Lighting · poultry lighting · tunable light
15
Niagara Falls unveils spectacular LED lighting upgrade
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 Niagara Falls unveils its dazzling new $4 million LED makeover which illuminates the water with a rainbow of colour |
The new system is also installed at the Table Rock Centre and includes 1400 individual LED luminaires supplied by Stanley Electric.
‘The newly enhanced nightly illumination of Niagara Falls will capture the imagination of the millions of visitors, who come to witness the sheer power and beauty that is Niagara,’ stated Mark Thomas, chair of the Niagara Falls Illumination Board. ‘We are very fortunate to have community stakeholders on both sides of the border who have supported our vision and this project from the very start. These enhancements will help us to create an overall guest experience that will continue to shine a positive light on Niagara for people from throughout the world, as reported in LEDs magazine.
The Niagara Falls were previously lit by xenon sources with the light projected from the roof of the Table Rock Centre, and that system had been in place for some 20 years. Salex president Nick Puopolo led the process of retrofitting the system with LED lighting, bringing a proposal to the Niagara Falls Illumination Board along with Ecco Electric and ultimately participating in bringing the idea to fruition. Salex is a lighting and controls sales agency and Ecco is an electrical contractor.
The new system is also installed at the Table Rock Centre and includes 1400 individual LED luminaires supplied by Stanley Electric. The mix of red, green, blue, and white luminaires are grouped into 68 zones of control, 20 for the American Falls and 48 for the Canadian Falls. Salex said the system can deliver more than 18,000 different color combinations.
The SSL retrofit project was intended both to enhance the falls experience for visitors and to deliver the energy efficiency and longevity associated with LED lighting. Salex said the outdoor SSL system delivers light levels that are 4–14 times brighter than the xenon lighting depending on the colors being projected. Moreover, Salex said uniformity was much improved with light now filling gaps in the coverage of the prior system while the new lighting also delivers a “crisper visual image of the waterfalls.’
The LED system reduced energy consumption by 60 percent relative to the xenon lighting. And the consortium of companies behind the project designed it to operate relatively maintenance-free for 25 years.
landmark lighting · led effect lighting · led exterior lighting · led floods · led lighting · Niagara Falls Illumination · niagra falls lighting · Novel Energy Lighting · outdoor led · rgb led
8
New York’s bridges to get multi-million dollar LED facelift
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The Robert F Kennedy bridge, which links the boroughs of Manhattan, Queens, and the Bronx together, is part of the state wide project to light New York’s Hudson river bridges with LED.
The George Washington Bridge, one of the most famous bridges in New York City, will get an LED overhaul as part of Governor Andrew Cuomo’s plan to revitalise New York’s river crossings.
Nine New York bridges will receive an LED overhaul during the first phase of the $500 million project, ranging from the Henry Hudson Bridge in the Bronx to the Crossbay Veterans Memorial Bridge in the Rockaways.
It is planned that the new lighting schemes will be able to be programmed to salute historic moments, sporting events and national occasions such as the Fourth of July.
This mirrors the Empire State Building and One World Trade Centre which already use their lighting schemes to salute major events, such as the election of a new president on the conclusion of a Super Bowl.
New York’s bridges will join the The Big River Crossing in Memphis, the Leonard P. Zakim–Bunker Hill Bridge in Boston, the Big Four Bridge in Louisville, and the Little Rock Bridges in Little Rock, Arkansaw, to embrace light shows.
It had been previously announced that Philips Lighting would supply interconnected LED-based lighting, and controls technology for the new Tappan Zee Bridge that is currently under construction in New York’s Hudson River Valley, but the new announcement, from New York Governor Andrew Cuomo, marks a significant widening of the project.
Under the Governor’s plan, New York will also redesign tunnel plazas with cutting-edge veils equipped with LED capability, as well as introducing state-of-the-art automatic toll booths.
The New York Crossings Project will include Whitestone Bridge, Throgs Neck Bridge, RFK Triborough Bridge, Queens Midtown Tunnel, Hugh L. Carey Brooklyn Battery Tunnel, Verrazano-Narrows Bridge, Marine Parkway-Gil Hodges Memorial Bridge, and Cross Bay Veterans Memorial Bridge. The coordinated lighting plan will also include the George Washington Bridge, which is operated by the Port Authority of New York and New Jersey.
The New Tappan Zee Bridge in Westchester in upstate New York is expected to be completed in 2018 and will be lit using LED from Philips.
The NY bridge lighting plan was inspired by earlier New York building projects, which were conceived not only as practical additions to the city, but as public art works, such as the New York State Capitol, Grand Central Terminal, the original Penn Station and the Central Mall Mosaics at Jones Beach.
It is expected that the new LED lighting will use 40 to 80 percent less power and last six times longer than other types of roadway lighting.
Termed ‘The City That Never Sleeps’ the dusk until dawn lighting schedule will illuminate crossings with spectacular, multi-color light shows that will be visible for miles, with the hope of turning New York’s bridges into international tourist attractions with the potential to drive additional tourism revenue. The LED installations are set to begin in January 2017.
The initial phase of London’s own version of the New York bridge project will reach its final stage on Wednesday, when a winner will be announced of the ‘Illuminated River’ design competition, which will see all of London’s major river crossings receive a lighting revamp from the winning design agency. The schemes that are in the running can be seen here.
bridge lighting · led bright · led lighting · Novel Energy Lighting · tapan zee bridge · urban lighting
Streetlights powered by footsteps are unveiled in Las Vegas. PLUS: World’s first live li-fi test takes place at LuxLive. AND: Lux Award winners revealed at a ceremony in London. Lux Today December 6th 2016.
led street lighting · led streetlight · li-fi · lux today · luxlive · Novel Energy Lighting · street lighting
With the advent of LED lighting, the relationship between legacy dimming technology and LED lamps has become an uneasy one. Here MEGAMAN® shows how to overcome such difficulties.
New for old?
One of the big areas for dimming problems comes when home owners decide to switch out all of their traditional lamps for LEDs, but don’t change the dimmers at the same time. This is largely down to the lack of public knowledge about the fact that trying to combine old and new technologies can lead to all kinds of issues.
The problems that can occur when new and old are combined include: lamp flicker, flashing, an inability to dim as low as required and failures with the LED and/or dimmer. Even if the LED lamps seem to initially respond well to dimming, over time, the use of LED light sources on a legacy dimmer can have longer-term implications that lead to call-backs, weeks or months after installation.
The root of the problem
Almost all legacy dimmers designed for incandescent light sources are leading edge or trailing edge dimmers that commonly use a TRIAC/transistor as the key control device. This chops out parts of the voltage and reduces power to the light source in order to achieve the dimming performance. Though these work with incandescent lamps, LED lamps have an internal filtering circuit that distorts the supply signal and can result in system oscillations that are observed as flickering or flashing.
As well as encountering flickering and variable dimming performance, in extreme cases incompatible dimmer switches cannot be turned on, or suddenly shut off, can burn out, or permanently damage the LED lamps. In addition, traditional dimmers have a minimum load requirement of 40W or 60W, something that causes problems when replacing them with low wattage LED equivalents.
GU10’s – the LED opportunity
With halogen directional reflector lamps being phased out across Europe from September 2016*, there will be an increased push from homeowners for LED replacements. With the advances in LED lighting technology, there are now a wide range of exceptional alternatives to halogen lamps.
However, dimmable LED GU10 lamps are complex pieces of engineering, as they have to house a transformer, as well as dimmable driver components. There are at present a lot of dubious dimmable LED replacement lamps on the market. As with most things, you get what you pay for. So avoid the lower end of the market and choose a trusted LED manufacturer.
MEGAMAN has just launched its new selection of GU10 lamps (that incorporate the company’s new Hybrid Reflector and U-DIM™ technology – see products here). Available in both the popular Economy range and Professional range, these lamps are compatible with the widest possible range of existing dimmers, whether they are leading-edge or trailing-edge.
Overcoming LEDs and Dimming Problems:
Solution One: When keeping the traditional dimmer
For those installers faced with a homeowner who wants to keep their dimmers, wants LEDs and yet doesn’t know what type of dimmer has been installed, a solution is now at hand. MEGAMAN has developed its new U-DIM™ technology, which takes the headache out of switching to dimmable LEDs.
MEGAMAN U-DIM dimmable LEDs are compatible with the widest range of existing dimmers, whether they are leading-edge or trailing-edge dimmers. With the mains voltage halogen reflector lamps being phased out in Europe from 1st September 2016, home owners will need new lamps to operate perfectly with their existing dimmers and this dimming solution is a giant step in that direction. U-DIM LEDs are easy to use and it is possible to ‘plug-and-play’ to upgrade a lighting scheme.
MEGAMAN U-DIM technology is offered as a standard feature on MEGAMAN Dimming LEDs and they offer superior performance and flicker-free dimming from 100% right down to just 5%.
Solution Two: When replacing with new LED dimmers
Dedicated LED dimmers are a good way to overcome many of the traditional dimmer/LEDs issues. This is because they use micro control units to monitor and eliminate waveform noise and distortion, generating a digital signal to the control component that creates a stable and clean chopped waveform. If these dimmers are combined with LED lamps that have been tested and approved for compatibility (this is usually found on the dimming and/or LED lamp manufacturer’s website) – see the MEGAMAN one here as an example, then smooth LED dimming is guaranteed from day one of installation.
Dimming LEDs Checklist:
- Buy dimmable LEDs from a brand you trust
They will have tested a wide variety of dimmers with their lamps and have more comprehensive dimming compatibility lists
- Trailing edge dimmers work best with LEDs
However, if the client doesn’t want to replace their leading edge dimmers, then use LEDs that have been proven to dim well with this technology, such as MEGAMAN U-DIM LEDs
- If in doubt, contact the LED manufacturer
Unsure of whether the dimmer and LEDs are compatible? Check with the manufacturer’s online compatibility list, or contact their team for more advice
*For more information on the halogen ban – visit www.planfortheban.eu
Visit Novel Energy Lighting to buy your Megaman U-DIM GU10 lamps today
dimmable led gu10 · led dimming · led GU10 · LED lamps · megaman gu10 · Megaman LED GU10 · megaman u-dim · Novel Energy Lighting · u-dim
16
GDP due to lighting ‘must fall to tackle climate change’
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| Former Friends of the Earth chief Jonathan Porritt says we must accept a reduction of the historic proportion of GDP attributable to lighting and its associated energy requirements if we are to have an impact on greenhouse gas emissions. |
Delivering the inaugural annual lecture of the Worshipful Company of Lightmongers, he said: ‘We need to find ways of delivering increasingly sophisticated lighting services to the whole of humankind…in ways that cause considerably less impact, which probably needs less total economic activity.
‘Lighting is responsible for anywhere between 16 and 18 per cent of total electricity consumption in the world today, depending on how you do the calculations. So this is an absolutely massive part of the challenge. And although it’s rarely spoken about in those terms, people are beginning to understand that if we are going to make a difference to this story, we have to make a difference on lighting.’
Referring to the barrage of criticism from campaigners over the UK Government’s decision to approve a third runway at Heathrow Airport in London, he pointed out that aviation is responsible for 2 and 4 per cent of total global greenhouse gas emissions.
‘It’s relatively small in fact. When you compare lighting to these other big sectors, you can begin to see why it is people are focusing suddenly on the need to get lighting right.
‘What we know is that if you back right back before electricity to when people were using whale oil and tallow and candles, the contribution of the lighting industry as a whole has remained astonishingly constant over hundreds of years. It always contributes around 1.7 per cent of total GDP in any one year.
‘This rather amazing statistic was unearthed by Professor [Jeff] Tsao in the paper he wrote in 2010. And I quote: “New applications of increasingly efficient lighting technologies have consistently offset the energy efficiency gains from new lighting technologies almost exactly, leaving the portion proportion of global GDP attributable to lighting essentially unchanged for hundreds of years”.
‘So lighting’s always had this critical part in the economy of human societies at different points, at roughly 1.7 per cent of GDP.
’The problem is, we need to do something about that,’ he told a London audience of lighting executives. ‘I hope this isn’t going to upset people here but we kind of need to get that figure down. Because if we are to have a massive contribution from lighting to addressing this problem, we need to find ways of delivering increasingly sophisticated lighting services to the whole of humankind – not just the rich world – in ways that cause considerably less impact, which probably needs less total economic activity.’
However, he praised the lighting sector for its technological achievements, especially the development of the blue LED by Professor Shuji Nakamura and his team in the 1990s. Quoting the US Department of Energy, he said: ‘ “the widespread introduction of LEDs today will reduce electricity consumption by around 348 TWh by 2027, equal to the output of 44 large power plants, saving more that $30 billion at today’s power prices”. So you can see why this is going to have an impact on GDP. It takes $30 billion of economic activity out of the US economy, that translates through into the economic multipliers.
‘If the Indian government were to replicate the LED roll-out that it is currently undertaking in Pondicherry, it would reduce electricity demand by over 50 TWh and cut consumer bills by over $3 billion. These are just massive changes that are underway now.’
He also highlighted the president of Institute of Physics’ claim that the optimum use of LED lighting could reduce lighting’s share of the global electricity consumption in buildings from 19 per cent to 4 per cent. ‘That translates to the total electricity consumption of Europe.’
electricity demand reduction · energy efficient lighting · gdp · led GU10 · LED lamps · led lighting · led tubes · Novel Energy Lighting · power saving
