90W Indoor LED Lights for Hydroponic Plants
| Item | Value |
| Size(mm): |
270x60mm |
| Power(watt): |
90W(90x1W LED diodes) |
| Lumens(Lm): |
3650 Lm |
| LEDs Color: |
Red:Blue:Orange |
| Approved: |
CE & RoHs |
| Warranty: |
3 years |
| Replace to: |
Equal to 300-400w HPS/MH,save 80% power consumption |
| Lifespan(hrs): |
50,000 Hours |
| Input voltage(V): |
AC 85V-265V |
| Input current(A): |
0.34~1.05A |
| Work frequency(Hz): |
50/60 Hz |
| Cooling fans: |
Built-in 3 cooling fans, unique heat sink |
| Feature: |
Plug N Play, Lowest heat emit, Energy saving, Environment-friendly, Built-in hanging hardware. |
| Package Includes: |
1x 90w UFO LED grow light, 1x Power Cord, 1x Hanging Kit |
Product Discription
Full spectrum: Red: 660nm + 630nm, Blue: 475nm + 430nm, Orange: 615nm
Sustainable lighting
Efficient lighting is needed for sustainable architecture. A 90 watt UFO LED lamp emits 3650 lumens. which is equivalent to a standard 400 watt incandescent bulb. A standard 400W incandescent bulb has an expected lifespan of 1,000 hours while an UFO LED grow light 90W can continue to operate with reduced efficiency for more than 50,000 hours, 50 times longer than the incandescent bulb.
Energy consumption
One kilowatt-hour of electricity will cause 1.34 pounds (610g) of CO2 emission. Assuming the average light bulb is on for 10 hours a day, one 400-watt incandescent bulb will cause 1960 pounds (890 kg) of CO2 emission per year. The 90-watt LED equivalent will only cause 369 pounds (172 kg) of CO2 over the same time span. A building’s carbon footprint from lighting can be reduced by 68% by exchanging all incandescent bulbs for new LEDs in warm climates. In cold climates, the energy saving may be lower, since more heating is needed to compensate for the lower temperature.
Economically sustainable
UFO LED light bulbs could be a cost-effective option for lighting a home or office space because of their very long lifetimes. Consumer use of LEDs as a replacement for conventional lighting system is currently hampered by the high cost and low efficiency of available products. 2009 DOE testing results showed an average efficacy of 35 lm/W, below that of typical CFLs, and as low as 9 lm/W, worse than standard incandescents. The high initial cost of the commercial LED bulb is due to the expensive sapphire substrate which is key to the production process. The sapphire apparatus must be coupled with a mirror-like collector to reflect light that would otherwise be wasted.
