Shine New Light On Your Bottom Line
Shine New Light On Your Bottom Line
We specify the highest lumens-per-watt diodes available to produce our
ultra-efficient lighting.
If you pay £0.30/kWh, using 50 fewer watts will save you £1,500 over its useful life, with a corresponding decrease in CO2 load.
Our Mission
In 2008, 80 lumens/watt was the industry standard. We worked with our factories to use more efficient diodes that produced 100 lumens/watt, and our customers enjoyed substantial savings. Today, we build our products using 250 lumens/watt diodes and have become a leading lighting solutions provider, serving customers worldwide.
We can also
In 2008, 80 lumens/watt was the industry standard. We worked with our factories to use more efficient diodes that produced 100 lumens/watt, and our customers enjoyed substantial savings. Today, we build our products using 250 lumens/watt diodes and have become a leading lighting solutions provider, serving customers worldwide.
We can also build circadian lighting and controls that mimic the full spectrum of natural light, benefiting health and well-being.
LED Lighting integrated with controls typically uses 25-75% less energy than non-controlled lights.
A lighting control system, sometimes called Smart Lighting, is an intelligent network of devices that allow businesses to remotely control lighting minimising unnecessary light and energy use. Lighting has dramatic consequences for climate
LED Lighting integrated with controls typically uses 25-75% less energy than non-controlled lights.
A lighting control system, sometimes called Smart Lighting, is an intelligent network of devices that allow businesses to remotely control lighting minimising unnecessary light and energy use. Lighting has dramatic consequences for climate change. The International Energy Agency (IEA) said commercial buildings accounted for about 25% of total global electricity consumption in 2018. If not addressed immediately, global energy consumption for lighting will grow by 60% by 2030.
UV-C air purification units produce the same light rays as the sun. The first full-scale UV disinfection system for water treatment was used in France in 1910. UV-C was first added to air-handling equipment in the 1950s. The effectiveness of UV-C cleaners depends on how much air is collected and passed by the UV-C emitters. The length of
UV-C air purification units produce the same light rays as the sun. The first full-scale UV disinfection system for water treatment was used in France in 1910. UV-C was first added to air-handling equipment in the 1950s. The effectiveness of UV-C cleaners depends on how much air is collected and passed by the UV-C emitters. The length of UV-C exposure time required to sterilize varies by the pathogen. Because HVAC systems move air quickly, installing free-standing units in critical areas is sometimes more beneficial.
The International Energy Agency (IEA)
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