“Smart” led fotovitriny to improve the process of photosynthesis.
“Smart” led fotovitriny allow you to control a radiation spectrum of light (distribution of light, intensity, etc.), improving the photosynthesis process of plants, which is conducive to their growth. “Smart” led fotovitriny can be configured for each plant species to improve the process of photosynthesis. Large greenhouses will be able to save money on electricity almost three times – 60-70% of the usual costs.
Application on the example of the salad
“Smart” led fotovitriny allow you to control a radiation spectrum of light (distribution of light, intensity, etc.), improving the photosynthesis process of plants, which is conducive to their growth. Large greenhouses can save on electricity is almost three times — 60-70% of the usual costs.
Unlike gas-discharge mercury lamps or natrievye fotovitriny not heating up, not burn the plants luminous flux, they can be placed close to plants, they are safe for the soil and consume only 75-90 watts depending on the selected modification.
“Smart” led fotovitriny can be configured for each plant species to improve the process of photosynthesis.
The spectral composition of light and intensity of radiation of the led fitosterina can be changed at any time. Thus, receiving the light that the plant needs at a particular stage of its development. Analogues (not “smart” fitosterina) the spectral composition and radiation intensity are fixed — that is, unchanged.
– energy saving 60-70%,
– smart led fotovitriny not heating up, not burn the plants luminous flux,
– the possibility of placing plants in close proximity (almost touching the plant) without losing the light,
– smart led fotovitriny – environmentally friendly, safe for soil
– do not break and do not burst, do not contain poisonous substances,etc.,
– does not scatter light radiation,
– can be customized for specific types of plants and their stage of growth.
Principle of operation:
Each plant has its own spectral sensitivity and reaction to a certain length waves. In the future it is planned to develop a data Bank with information about light spectra, individually matching a particular type of plants — vegetables, fruits, flowers, etc. This will allow you to pick any plant “a” exposure mode, which can easily be set to “smart” led fitosterine.
Application on the example of a salad:
It is established that the salad has 3 stages of development, requiring different spectrum of light.
At an early stage for photosynthesis it needs more blue spectrum. Growing lettuce requires a combination red and white light radiation, and, ripening, uses for photosynthesis for three region of the spectrum – blue, white and red.
Absorbing the “right” light for this technology grew the salad for a few days faster than under conventional greenhouse lamps. On average, lettuce Matures in 30-35 days, under the “smart” led fitosterolami for 26-28 days. Thus, during the year, the agricultural enterprises will be able to grow about 2-3 party salad more.