Posts Tagged ‘health’

Full-Spectrum Lighting Health Claims

Friday, June 26th, 2009

I realized there are a couple of other things to mention, but so much of what I’ve been hearing relates to the health claims that I want to address that today and let the other things spill over into next week.

When the full-spectrum term was coined in the 1960′s it referred to both visible light and the invisible ultraviolet (UV) light. The health claims of full-spectrum lighting mostly revolve around the UV end of the range. All fluorescent light emits UV radiation, since it is the UV rays created by the mercury vapor striking the phosphor coating which makes a fluorescent light work. Full-spectrum lamps just emit more UV radiation than normal lamps.

The typical recommendation is to avoid as much UV exposure as possible. UV exposure has been linked to sunburn and skin cancers as well as cataracts in the eye. UV exposure also cause the degradation of textiles, paints, and architectural materials. Museums typically require all wavelengths shorter than 400nm to be filtered out of artificial lights.

  • Technical info, you may ignore: Visible light is 760 nm to 380 nm, UVA is light wavelengths between 400 nm and 315 nm, UVB is light wavelengths between 315 nm and 280 nm, UVC is light wavelengths between 280 nm and 100 nm. Visible light is broken down as red from 760 to 610 nm, orange from 610 to 591 nm, yellow from 591 to 570 nm, green from 570 to 500 nm, blue from 500 to 450 nm, and purple from 450 to 360 nm. These are defined by the International Organization for Standardization in ISO 21348:2007.

Full-spectrum lighting to treat SAD (seasonal affective disorder): Using full-spectrum lighting does not fit into the standard treatment of SAD, which involves exposure of the eye to a white light source in a light box. The light box typically generates 10,000 lux and it is used for about 30 minutes. Lower intensities might be used for longer periods. At 10,000 lux, any light source will be effective to treat SAD. Most importantly, these light boxes shield out UV rays, which is the opposite of using full-spectrum lighting. Using full-spectrum lamps in normal overhead lighting will have no effect upon SAD treatment.

Full-spectrum lighting and vitamin D production: Vitamin D is important, but the production is stimulated by the UVB band (315 to 280 nm) of light. Full-spectrum lamps typically use phosphors to generate UVA radiation (400 to 315 nm), and they typically peak around 355 nm. You are better off eating fish and dairy products and–if you’re really worried–taking supplements. Various studies have been done showing exposure to full-spectrum lighting for vitamin D production is impractical. For example, to spike vitamin D production in your body you may need 30 hours continuous exposure to a full-spectrum lamp to get the same affect as 22 minutes of mid-day sunlight. Or, 8 hours of full-spectrum office lighting has about the same UVB exposure as 1 minute of direct sunlight.

Also, the UVB rays that are generated by full-spectrum lamps often don’t bounce off surfaces. That means that if you are hoping to increase your UVB exposure you will only get it when in direct line of sight from the lamp to your skin. Everything else is absorbed by the materials and clothing around you. That also increases the deterioration of those materials.

In summary, there really are no serious health benefits to using full-spectrum lighting.

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Dimming Your Bedroom

Tuesday, June 16th, 2009

One of the most important–and most commonly overlooked–places to use dimmers is your bedroom. During the day, having the lights on at full blast works fine. But in the evenings, the lower level of lighting not only creates a more calm and relaxed environment, but it actually gets your body ready to sleep. I start with my lights dimmed to about one-half, and as I go through the bedtime routine I keep bumping the lights lower and lower. By the time I’m ready to actually get in bed the lights are around 10-20% of full.

This can be especially useful to help children fall asleep. If the bedtime routine with your kids is tough, try to make sure that they stay out of rooms fully lit. This is especially true if they get out of bed and run into a fully lit hallway. The bright light jolts the body into a waking state. If you start lowering the lighting before the bedtime routine begins, and keep lowering it throughout, they will be physically synced into a nighttime rhythm. It won’t solve the issue completely, but it will help make other methods more effective.

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Intro to Fluorescents, Day 4

Thursday, June 11th, 2009

There are a couple health concerns that have been discussed in the media recently. Fortunately, the technical benefits of fluorescent lighting outweigh the risks.

The gas in fluorescent lamps is a mercury vapor, which is why some people are concerned about switching to fluorescents. However, the amount of mercury is small when compared to the amount of mercury released by coal-fired power plants. Since you’ll be changing out a 100 watt bulb for a (somewhere around) 25 watt bulb to get the same light, you reduce the generation needed at the power plant. (The US still generates most of its electricity from coal-fired plants.) Most researchers agree that switching to fluorescents will bring a net reduction in mercury emissions, and the EPA claims about a 2/3rd reduction in mercury emissions for changing a 60 watt incandescent to a 13 watt compact fluorescent.

Also, you can get lower mercury lamps by looking for TCLP compliant lamps. TCLP is a test the EPA has that involves crushing stuff up and see what leaches out.

Fluorescent lamps are classified as Universal Waste, which means you can’t throw it in the dump, but it doesn’t have to be handled like hazardous waste. It’s in the middle. You may or may not be able to recycle them in your area. The EPA has a page to help you figure out what’s available at their website: http://www.epa.gov/epawaste/hazard/wastetypes/universal/lamps/live.htm.

On a second matter, the current passing through the vapor generates UV (ultraviolet) rays, which are necessary to make the phosphor coating fluoresce. Much of the UV is shielded by the glass simply as a property of glass, nothing special is done to it. Some UV does come through, but it is a fairly small amount. “Full spectrum” fluorescent lamps are available, but I recommend you do not use them. They use older and less efficient phosphor coatings, they allow more UV through, and they are typically less efficient. There is also no definition of what “full spectrum” means, so you don’t know what you’re getting when you buy them.

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