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[T1010]To Grow Light As The Sun Rises
by Mark C. Robinson, Mar
Photovoltaic (PV) solar panels use solar cells to convert light from the sun directly into electricity. At Innovative Solar Solutions, we carry and stock most of the major brands, including Sharp Solar, Kyocera Solar, BP Solar, Evergreen Solar, SolarWorld, Kaneka, Uni-Solar, Suntech , Sanyo, Day4 and OEM Solar modules.

The three most common types of solar panels are Monocrystalline, Polycrystalline, and Amorphous:

Monocrystalline - made from a single large crystal, cut from ingots. Most efficient, but also the most expensive. Somewhat better in low light conditions.

Polycrystalline - cast blocks of silicon which may contain many small crystals, the most common type right now. Slightly less efficient than single crystal, but once set into a frame with 35 or so other cells, the actual difference in watts per square foot is not much.

Amorphous (also called thin film) - the silicon is spread directly on large plates or flexible laminates.They are cheaper to produce, but often much less efficient, which means larger panels for the same power. Uni-Solar is one example.

The differences between the two module types - crystalline and amorphous- really show up in their sunlight-to-electricity conversion efficiencies and power densities. Crystalline modules require less space than thin-film modules for the same amount of power?thin-film is less efficient in the conversion of sunlight to electricity.

Single- and multicrystalline modules have typical conversion efficiencies between 12% and 17%. But thin-film technologies can have half that, ranging from 6% to 8%. Thinfilm modules take up about twice as much space to generate an equivalent amount of energy compared to crystalline
modules.

Besides power density, there are two key differences in performance between crystalline and thin-film technologies. The first is impact of cell temperature on power production. The second is initial module power stabilization.

All PV modules experience a reduction in power with increasing cell temperature. For example, at 100'F, our sample crystalline module will produce approximately 6% less power than its STC rating. This effect is less pronounced for thin-film PV technologies?our example a-Si thin-film module would produce only 2% less power. While you can reduce cell temperature by allowing adequate air flow around any module, PV cells sitting out in the sun will still get hot'so thin-film a-Si modules might be a good choice for warm climates, especially if there's plenty of room for the larger array.

Amorphous silicon modules take 6 to 12 months to reach their stable, rated output, whereas crystalline modules stabilize right away. So a-Si modules will show 20% to 25% higher-than-rated production at first. While that sounds like a bonus, this initial additional output must be considered in system design (for selecting wire sizes, charge controllers, and inverters). For example, if the final design indicates a 15 A circuit, the initial extra output might require accommodating 20 A. After this stabilization, thin-film modules degrade at similar rates to crystalline, about 0.5% to 1.0% per year.

Apart from the benefit in terms of helping people doing activities in everyday life, light also have other benefits in terms of one element of the decoration. The format and design of lighting and details that build the attractiveness to your house. However, one of the important element is the style and detail of lighting can build or change people feeling and room's atmosphere as well as can distinct the detail of the building architecture outstandingly in order to emphasize the beauty of decoration.

Using light in your house/building
There are two important element that you have to consider when using light in your house/building one is the source of the light, which directly related to light bulb, and the second element is the countenance, which directly related to lantern or lampshade.

To arrange lighting in a house you should not consider only the shape of the lamp, but you should also consider the quality and its ability on light extension and filtering too.
There are three main characteristics of light extension and filtering.
1. The light that constantly spread to every direction
2. The light that shine focus to only one direction but still spread out a bit to other area.

We have to choose the character of illuminating in order to the most suitability of using light in each part of the house. Generally, there are three character of using light in house/building.

1. Background Lighting
This type of lighting is necessary for everyday life. You need background light in order to do activities during night time. Generally, background light is from the lamp that stick or hang on the ceiling (Pendant) or you may use other type of lamp such as wall lamp or , the lamp that shine directly to the ceiling and reflect to the area below (Uplight) or you may use desk lamp All of this style of lighting are more interesting than using only one lamp fixed on the ceiling.

2. Lighting for work (Task Light)
We use task light in the area such as a kitchen, bar counter, office or where have works happen very often. These area need more brightness level but you should be careful not to install the lamp at position that shadow of the light fall to the working area.
The type of lamp that suitable for working area are those kind that can adjust the direction such as ceiling lamp, lamp for office desk (adjustable) , spot light or any other kind of lamp that give more power of brightness. You can also use the same type of lamp where installed at the dark area that need much brightness such as at the ladder corner, fence lamp or outside the house.

3. Accent Light
We use accent light to focus on certain point that we need to emphasizes of decoration.
The lamp that provide this type of light picture light or any kind that provide light that focus to one point of area.

Article Source : Pg. 5

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Both Mark C. Robinson & Tuchchai Suwanawong are contributors for EditorialToday. The above articles have been edited for relevancy and timeliness. All write-ups, reviews, tips and guides published by EditorialToday.com and its partners or affiliates are for informational purposes only. They should not be used for any legal or any other type of advice. We do not endorse any author, contributor, writer or article posted by our team.

Mark C. Robinson has sinced written about articles on various topics from Science, Family and Information Technology. Mark C. Robinson is a famous author, who writes about ,. Mark C. Robinson's top article generates over 1600 views. to your Favourites.

Tuchchai Suwanawong has sinced written about articles on various topics from Home Management, Gardening and Interior Design. . Tuchchai Suwanawong's top article generates over 110000 views. to your Favourites.
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