Cleantech Market Intelligence
Indoor Farms Glow With LEDs
Have you noticed that old factory on the edge of town glowing with new life? Perhaps there isn’t one near you yet, but early results from the new science of light-emitting diode (LED) farming are so promising that you may see one soon. Unlike traditional lights used for indoor agriculture (usually high-pressure sodium), LEDs emit very little heat. This allows the lights to be placed much closer to the plants, multiplying the capacity of an indoor facility. The lights also use less energy, and perhaps more importantly, they can be tuned to provide just the right wavelengths of light to maximize growth for individual plant species and further reduce electrical waste. The overall increase in efficiency and production is helping fuel what some believe will be a new boom in indoor agriculture.
The whole concept is quite appealing. In a world with rising water shortages, indoor agriculture can be much more water efficient. In a polluted world, this type of farming creates no runoff of fertilizers and pesticides into our rivers and oceans. And in a world with an ever-thickening greenhouse blanket, indoor farming (although it uses artificial light, rather than the free light provided by the sun) also eliminates thousands of miles of refrigerated transportation.
Pot to Plate
Thanks to the efficiency of the LEDs providing that artificial light, the overall energy consumption from pot to plate can be reduced. Navigant Research will be researching and publishing a report on the growing use of LEDs for this type of farming in second quarter of this year.
It is, at this point, commonly known that LEDs are a more efficient light source. Examples like this, however, show that efficiency isn’t the only difference. Low heat emission and the ability to tune wavelengths are enabling this boom in indoor agriculture. That same color tuning ability is also starting to be used for the light we shine on ourselves in offices and other buildings, providing the right qualities for the right times of day and improving productivity and health. The long lifespan of LEDs is doing away with the concept of separate lamps and luminaires. The ability to arrange LEDs into thin and flexible panels is allowing for fixture designs that were never before possible, and just might revolutionize the way we supply light to our built environment. All this from a still newly affordable light source. What other changes might LEDs bring as bright minds take advantage of all the unique properties of a light source that requires neither a filament nor a tube of gas?