Furthermore, the directional lighting of LED lighting is much more energy efficient than HID or HPS growth lamps. As a result of these factors, Producers who switch to LED growth lighting will receive a drop in their electricity bill. Because producers can use less watt to deliver the same amount of light to their factories, they have less capital and HVAC operating costs.
Because LED culture lighting produces much less heat, those HVAC systems don’t have to work as hard to maintain an optimal temperature for your growth chamber, which will reduce costs. CFL lamps promote longer life and a better light spectrum for growth. Extremely energy efficient, they have an ultra-low heat output and offer an ideal light spectrum range.
In addition, growth lights emit very specific light wavelengths, which is crucial for plant growth. Compared to other growth lighting, LED growth lamps are by far the most efficient, because they save energy and mimic the sun in a way that no other indoor growth light does. Hydroponica enthusiasts often get caught up in the details of light energy and its effects on plant growth. Since HID lamps generate a significant amount of heat and infrared light, which causes evaporation of water, producers must water their plants regularly to compensate for water loss.
Refunds must be requested and approved before purchasing your interior lighting for culture, and the fee is normally only granted months after placing the approved order. VOLT Grow® has a team that can handle all the paperwork and applications needed to get the maximum refund for your purchase of grow lights. The reason why producers chose LEDs over traditional lighting is because of the saving of electricity.
The lamps can be used 24 hours a day, so that as much plant growth as possible per season. With this lighting, the annual crop yields can be increased, leading to higher profits. An important advantage of using LED growth lighting is the enormous energy spectrum they offer. When choosing LEDs, you don’t have to worry about turning off the lights as your crops ripen during their growth cycle. In fact, you can even install a system that specifically matches the type of crop you grow.
This means that you may need to adjust your HVAC or heating systems to take into account that less heat is produced in your grow room. In warmer climates, this means that you don’t have to pump that much heat from your growth chamber with HVAC systems. In cold climates, you may need to generate more grow lights heat with gas or electric heaters to keep your room at an optimal temperature. HPS / CMH growth lamps produce heat less efficiently than a special heater and must be switched on for this. This means that you may still need to rely on special heaters during shutdown cycles to keep your room warm.
That is why it is always necessary to continue to supply these installations with more energy and water to prevent them from dying. But with the LED green light, you can always adjust the heat to emit just the right amount of heat without the corresponding harmful wavelength. For some plants, for example, you need exactly 1000 W of growth light and for another 600 W it may be enough.
The fastest growing rooms require less air conditioning to cool the room. Producers reported a 50% reduction in air conditioning costs when switching to LEDs. The A / C reduction comes not only from the efficient lighting technology of LEDs, but from the fact that manufacturers can grow their ambient temperatures up to 10 ° F warmer when using LED lights. A secondary advantage of LED grow lights that produce less heat is that they can be placed closer to the awning of your plants.