LED Lighting Fundamentals with regard to Aquariums.

As may be the case with automobile and home lighting systems, LED lighting systems for saltwater aquariums are becoming extremely popular among aquarists during the last few years. These systems have some very good points in their mind, especially if you invest in a quality light strip. But there’s also some issues to be aware of when working with LED lighting in your aquarium.

The Benefits of LED Lighting for Aquariums

LED lighting systems are more cost effective in two ways. First, an LED bulb provides seven to eight times more wattage per bulb than other forms of aquarium lighting, such as for instance halide and T5HO bulbs. What this signifies is you will get exactly the same amount of light from the 30 watt LED bulb as you might find from the 250 watt halide bulb. This will produce a significant savings in your monthly electric bill. Second, LEDs can last around 50,000 hours. Although you pay more initially for the LED bulb, you might not have to replace it for seven years, as compared with the yearly cost of replacement of a T5HO or halide bulb. The LED aquarium lighting system packs all these savings into a small space, because LED systems are scaled-down than other aquarium lighting.

The grade of the LED lighting is also a great reason to purchase this system. LED aquarium lighting can deliver around 10,000K of lighting, which is enough to stimulate LED Linear Lighting growth in corals and aquarium plants. Also, you’ve a wide selection of choices in colors with an LED system. When that is along with computer programming, it can produce an aquarium that either shimmers like it is found in the ocean, or the lighting accentuates the colors of the fish and corals for an exceptional show.

Things to Try to find in an LED Aquarium Light

One aspect of a great LED aquarium lighting system to look for is if it’s ways to cool itself off to be able to extend the life span of the LED bulbs. This cooling can either be passive or active. The Maxspect Razor R420R uses an aerodynamic design to naturally draw cooler air from beneath the system and through the slim body of the fixture to passively cool the lights. In the case of the Ecotech Marine XR30w Pro Gen3 model, a lover is built into the center of the light strip to provide necessary cooling for the LEDs.

Another item to look for when choosing an LED light fixture may be the spectrum array of the lights. You would like the body to provide the entire light spectrum your plants, animals, and corals need to be able to thrive as though they were within their natural habitat. In the case of the AquaIllumination AI Hydra FiftyTwo LED System, your aquarium organisms can receive the full spectrum of light that’s higher than visible light. If you feel that might be somewhat much for your setup, AquaIllumination also makes an AI Hydra TwentySix LED system, which has half the bulbs of the FiftyTwo model, but nevertheless uses 80 degree lenses to spread the light to best advantage, as well as providing 90 percent LED optical efficiency.

What to Avoid When Using LED Aquarium Lights

There are always a few things you need to be aware of before creating your own LED lighting in your aquarium. Heat is one item. Although LED lights don’t release nearly as much heat into an aquarium system as metal halides or T5HO bulbs do, they’re susceptible to reduced lifespan in the presence of heat. Therefore, LEDs shouldn’t be properly used close to halides, fluorescent, or T5HO bulbs, because of the experience of heat.

Do not get your LED system wet. Although aquarium LED systems are water-resistant, they can’t take being dropped into the aquarium. The result is likely to be corrosion and shorting of the circuit board. You also need to regulate the mineral deposits that can develop on LED light systems for exactly the same reason. Marine aquarium salts can corrode your light system, unless the salts are cleaned off regularly.

Finally, you need to introduce LED lights slowly to coral reef aquariums. These lights may be intensely bright. If bright LEDs are introduced prematurely, corals can occasionally answer the change by expelling their zooxanthellae, leaving behind a bleached coral without any sign of life.