Causes
Overillumination can be caused by several factors: * Illuminating an unoccupied area * Using electrical lights instead of natural light * Providing lighting for an occupied area, but with too much intensity * Installing too few electrical controls. This results in an area that must either be overilluminated or not illuminated at all. In addition, there are ancillary reasons why overillumination might be decided to be necessary. For example, retail stores with large windows will sometimes stay illuminated overnight as a method of crime prevention. While some aspects of illumination are readily controllable, such as turning off lights when exiting a room, others are determined by the architecture and construction of the building. For example, skylights decrease the amount of artificial lighting that is required during the daytime, but most buildings do not have them installed. In addition, too few light switches can also cause issues. If an office building with large windows only has one switch per floor, then electric lights will illuminate the perimeter areas (with abundant natural light) to same level as the interior zones (which receive less sunlight).Health effects
Overillumination has been linked to various negative health effects. While some effects might happen because the color spectrum of fluorescent lighting is significantly different from sunlight,Lumina Technologies, Santa Rosa, Ca., ''Survey of 156 California commercial buildings energy use'', August, 1996Peter Boyce and Boyce R Boyce, ''Human Factors in Lighting'', 2nd ed., Taylor & Francis, London (2003) other symptoms might be caused by light that is simply too intense. In particular, overillumination has been linked to headaches, fatigue, medically defined stress, anxiety, and decreases in sexual function.''Cambridge Handbook of Psychology, Health and Medicine'', edited by Andrew Baum, Robert West, John Weinman, Stanton Newman, Chris McManus, Cambridge University Press (1997) Susan L. Burks, ''Managing your Migraine'', Humana Press, New Jersey (1994) L. Pijnenburg, M. Camps and G. Jongmans-Liedekerken, ''Looking closer at assimilation lighting'', Venlo, GGD, Noord-Limburg (1991)Igor Knez, ''Effects of colour of light on nonvisual psychological processes'', Journal of Environmental Psychology, Volume 21, Issue 2, June 2001, Pages 201-208 Some studies attribute migraine headaches to overly intense light, while others linked it with certain spectral distributions. In one survey bright light was the number two trigger (affecting 47% of respondents) for causing a migraine episode. Fatigue is another common complaint from individuals exposed to overillumination, especially with fluorescent media. Likewise, overillumination can also cause stress and anxiety. In fact, natural light was preferred over purely artificial light by office workers from both eastern and western cultures.E. Nagy, Sachiko Yasunaga and Satoshi Kose, ''Japanese office employees' psychological reactions to their underground and above-ground offices'', Building Research Institute, Ministry of Construction, 1 Tatehara, Tsukuba-shi, Ibaraki-ken 305, Japan, Revised 13 April 1995. Available online 20 May 2004. In addition, overillumination can cause medical stressM.R Basso Jr., ''Neurobiological relationships between ambient lighting and the startle response to acoustic stress in humans'', Int J Neurosci. 2001;110(3-4):147-57, and even aggravate other psychological disorders like agoraphobia. The replacement of natural light with artificial light also decreases task performance under certain conditions.Circulatory and circadian rhythm effects
Hypertension effects of overillumination can lead to aggravation of cardiovascular disease and erectile dysfunction, which are outcomes of long-term cumulative exposure and associated systematic increases in blood pressure. The mechanism of this effect seems to be stress by related upregulation of adrenaline production akin to theEnergy and economic considerations
Using too much lighting will lead to higher electricity consumption, and therefore higher electricity costs, for the owner of the building. The solution to this issue is multi-faceted because there are several causes of too much light.High-intensity light
First, overillumination occurs when the intensity of lighting is too high for a given activity. For example, an office building might have many sets of fluorescent lights to keep the area illuminated after sundown. During the daytime, however, large windows might allow for abundant amounts of natural sunlight to enter the office. Therefore, keeping all of the fluorescent lights illuminated during the daytime might cause unnecessary costs and energy consumption.Leaving lights turned on
Likewise, not switching off the lights when exiting a room will also cause higher energy consumption. Some people avoid frequently turning off CFL bulbs because they think that doing so will cause them to burn out prematurely. While this is true to a certain extent, the US Department of Energy recommends that 15 minutes is an appropriate time frame. Another concern is that turning on a fluorescent bulb consumes large amounts of energy. While fluorescent bulbs do need more energy to turn on, the amount of electricity consumed is equal to only a few seconds of normal operation. Sometimes people do not turn off lights for other reasons, such as an office worker whose company actually pays for the electricity. In these cases building automation provides more control. These solutions provide centralized control of all lighting within a home or commercial building, allowing easy implementation of scheduling, occupancy control, daylight harvesting and more. Many systems also support demand response and will automatically dim or turn off lights to take advantage of DR incentives and cost savings. Many newer control systems are using wireless mesh open standards (such asArchitectural design and the type of light bulbs
Architectural design can also provide ways of reducing energy usage. There are technological aspects of window design where window angles can be calculated to minimize interior glare and reduce interior overillumination, while at the same time reducing solar heat loading and subsequent demand for air conditioning as energy conservation techniques. For the Dakin Building in Brisbane, California the angled window projections effectively provide permanent sunscreens, obviating interior blinds or shades. Ideally, the design of a building would create multiple switches for the overhead lighting. Adjusting these settings would allow the optimal light intensity to be delivered, the most common version of this control being the "three-level switch", also called A/B switching. Much of the benefit of the excess illumination reduction comes from a better ratio of natural light to fluorescent light that can result from any of the above changes. Research has been conducted showing worker productivity gains in settings where each worker selects his or her own lighting level.H. Juslen, M. Wouters M and A. Tenner, ''The influence of controllable task-lighting on productivity: a field study in a factory'', Appl Ergon., Mar 7; 2006 Lastly, the type of light bulbs that are installed has a significant effect on energy consumption. The efficiency of light sources vary greatly. Fluorescent lights produce several times as much light, for given power input, as incandescent lights do, and LEDs are continuing to improve beyond that. Shades vary in their absorption. Light-colored ceilings, walls, and other surfaces increase ambient light by reflecting.See also
* Christmas lights * Daylight harvesting * Energy conservation * Flicker fusion threshold * Hypertension *References
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