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• Save Money LEDs: Although the initial investments for LED Light is greater than that of incandescent and fluorescent light bulbs; however, the pay back for LEDs is so much greater, that it will save you money. static electricity jokes LEDs use only a fraction of the energy of other light bulbs, saving you money on electricity bills. LEDs can last 50 times longer than conventional bulbs again saving you money on not only the cost of the bulbs but on the time and money spent on replacing blown bulbs. Use our LED Bulb Savings Calculator to figure out how much you can save money by using LEDs.

• Low Heat Output: Most of the energy emitted from incandescent bulbs is converted to heat instead of light. That’s why you’ll burn yourself if you try to touch an incandescent bulb once it’s turned on. LEDs are cool to the touch. gas 10 ethanol Emitting very little heat, LEDs can be used to light delicate objects such as paintings and canvases. They also have the benefit of reducing the work of air-conditioners.

• No UV Emissions: Unlike other light bulbs, LEDs do not emit Ultra Violet Light, which is particularly useful for museum s and galleries, where existing halogen bulbs can cause UV degrading of displayed materials. This makes LED a preferred light source for illuminating artwork, documents, and sensitive materials that can be damaged by UV radiation.

• Color Rendering: LEDs are available in a range of colors, including white light. White light LED fixtures are available with a choice of warm to cool Kelvin temperatures to suit the application. types of electricity consumers Multiple color LED fixtures are available to provide dramatic color-changing effects. Variable intensity LED systems can provide many colors, controlled by PC, DMX controller or proprietary controller to generate fixed color, washing, fading, strobe and other color changing effects.

• LED Applications: LED are now widely used in a variety of lighting applications such as commercial offices, manufacturing industry, hospitals, airports, hotels, bars, restaurants, clubs, lounges, parking lots, street lights, automotive industry, residential homes, retail stores, churches, schools and universities, and many other areas. Many of these places typically leave their lights switched on for long periods of time, sometimes for even 24 hours per day, so LEDs can offer significant savings in terms of electricity consumption, bill saving, as well as replacement costs.

A light-emitting diode, also known as LED, is a semiconductor light source. gas and supply Currently the LED lamp is popular due its efficiency and brightness. Many believe that LED is a “new technology”; however, the LED as we know it has been around for over 50 years. electricity in indian villages The recent development of white LEDs is what has brought it into the public eyes as a replacement for other white light sources.

Daylighting – The use of natural light to supplement or replace artificial lighting. Strategies include the proper orientation and placement of windows, use of light wells, light shafts or tubes, skylights, clerestory windows, light shelves, reflective surfaces, and shading, as well as the use of interior glazing to allow light into adjacent spaces.

High Efficiency – General term for technologies and processes that require less energy, water, or other inputs to operate. A goal in sustainable building is to achieve high efficiency in resource use when compared to conventional practice. Setting specific targets in efficiency for systems (e.g., using only EPA Energy Star certified equipment, furnaces with an AFUE rating above 90%, etc.) and designs (e.g., watts per square foot targets for lighting) help put this general goal of efficiency into practice.

LED – A Light Emitting Diode (LED) is a solid-state semiconductor device which converts electrical energy directly into light. On its most basic level, the semiconductor is comprised of two regions. The p-region contains positive electrical charges while the n-region contains negative electrical charges. gas prices going up in nj When voltage is applied and current begins to flow, the electrons move across the n region into the p region. The process of an electron moving through the p-n junction releases energy. The dispersion of this energy produces photons with visible wavelengths.1