LED stands for Light Emitting Diodes and the ones used for growing plants are a bit different from the regular ones in electronics. For agricultural purposes these diodes are placed more closely and this makes them more powerful thereby making their lighting capabilities a little more powerful. Throughout this guide you will be given all the necessary information concerning the LED grow lights.
For LEDs a single wavelength can be emitted as required. This is not however the case for the common light bulbs. These bulbs emit a wide range of wavelengths which form the final white light by combining the wavelengths together. Power adjustments are done by increasing the number of diodes or even by controlling the brightness of these diodes.
There have been several studies which have been carried out to determine the effect of the light from the sun. It has come to be known that the sun, although beneficial to the plants, it produces some wavelengths which can hinder the development of chlorophyll. This necessitated the need for developing a source which does not pose those effects to plants. This made the diodes a better option.
Some people are hindered from undertaking fruitful agricultural production by the lack of sufficient durations of sun exposure. This scenario calls for innovativeness in ensuring that chlorophyll production continues. Through diodes this scientific breakthrough was arrived at as a viable way of ensuring the plants develop. The reduction in the available arable land has posed a major challenge to many aspiring farmers. It is through the utilization of indoor spaces fitted with LEDs that this challenge has been overcome.
The minute levels of heat emission experience by the use of diodes make it a good fit for agriculture. This allows the diodes to be strategically fixed near the plants so as to help the plants take advantage of proximity of all wavelengths. This helps facilitate plant growth and it is possible only because diodes do not use produce a lot of heat as a result of low energy consumption.
The reduced heat also cools the surrounding environment. This will make the plants transpire less and therefore the overall water consumption by the plants is reduced significantly. Studies have shown that the height of the plants can be easily controlled when using LEDs. This is made possible by the fact that the growth of a plant can be halted once its height reaches a certain distance from the diodes.
With diodes there is no need for a ballast to be incorporated within the system. These ballasts are often placed in other growing technologies with the view of preventing the system from destroying itself. Apart from being bulky, it uses a significant amount of energy to sustain operation. When such a unit is excluded using diodes, the cost of energy can be reduced to sustainable levels.
The intensity that the wavelengths are transmitted to the plants is easily adjustable by controlling the degree of brightness produced by the diodes. Scientists have also associated the increase in the anti-oxidation abilities of plants to ability to vary the intensity of the wavelength. For agricultural purposes one should consider the different benefits availed by the different products in the market. The energy consumption should be determined to be efficient and the unit should have the ability to cool itself. The spectrum produced must be deemed suitable for that very purpose.
For LEDs a single wavelength can be emitted as required. This is not however the case for the common light bulbs. These bulbs emit a wide range of wavelengths which form the final white light by combining the wavelengths together. Power adjustments are done by increasing the number of diodes or even by controlling the brightness of these diodes.
There have been several studies which have been carried out to determine the effect of the light from the sun. It has come to be known that the sun, although beneficial to the plants, it produces some wavelengths which can hinder the development of chlorophyll. This necessitated the need for developing a source which does not pose those effects to plants. This made the diodes a better option.
Some people are hindered from undertaking fruitful agricultural production by the lack of sufficient durations of sun exposure. This scenario calls for innovativeness in ensuring that chlorophyll production continues. Through diodes this scientific breakthrough was arrived at as a viable way of ensuring the plants develop. The reduction in the available arable land has posed a major challenge to many aspiring farmers. It is through the utilization of indoor spaces fitted with LEDs that this challenge has been overcome.
The minute levels of heat emission experience by the use of diodes make it a good fit for agriculture. This allows the diodes to be strategically fixed near the plants so as to help the plants take advantage of proximity of all wavelengths. This helps facilitate plant growth and it is possible only because diodes do not use produce a lot of heat as a result of low energy consumption.
The reduced heat also cools the surrounding environment. This will make the plants transpire less and therefore the overall water consumption by the plants is reduced significantly. Studies have shown that the height of the plants can be easily controlled when using LEDs. This is made possible by the fact that the growth of a plant can be halted once its height reaches a certain distance from the diodes.
With diodes there is no need for a ballast to be incorporated within the system. These ballasts are often placed in other growing technologies with the view of preventing the system from destroying itself. Apart from being bulky, it uses a significant amount of energy to sustain operation. When such a unit is excluded using diodes, the cost of energy can be reduced to sustainable levels.
The intensity that the wavelengths are transmitted to the plants is easily adjustable by controlling the degree of brightness produced by the diodes. Scientists have also associated the increase in the anti-oxidation abilities of plants to ability to vary the intensity of the wavelength. For agricultural purposes one should consider the different benefits availed by the different products in the market. The energy consumption should be determined to be efficient and the unit should have the ability to cool itself. The spectrum produced must be deemed suitable for that very purpose.
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