Latest Dimond Version ChloroBA C2 LED Grow Light for plants, using effective full spectrum 360-870nm sunlight spectrum for plants, largely accelerate the plant growth. Compare with the previous led grow lights, ChloroBA C2 LED Grow Light use high par value and high lumen ligthing for the plant growth. Solid lamp body with anti-drip, anti-insect, anti-sunburn design, can last for long time. It can be used to enhance the growth of different plants (medical plants, vegetables, herbs and flowers ). Widely used in hydroponic, greenhouse, indoor garden, horticulture, aeroponics. It is suitable for all plants growth.
Specifications:
Name: C2 Led Grow light
Led Qty: 4pcs x 72w
Model Number: ChloroBA C2
Lamp Power(W): 288W
Lumenous Flux:11327lm
Input Voltage(V): AC100V-240V
Life Time: 50,000 Hrs
Surface Material: Anti-oxidation aluminum
Wavelength Range: 360~870nm
Working Temperature: -20°C~+50°C
Par Value/200mm:5370µmol
Fixture Size (L x W x H): 365 x 365 x 153mm
Packing Size (L x W x H): 420 x 420 x 180mm
Certification: CE, RoHS, PSE
Net Weight:5.20 kg
Gross Weight: 6.70 kg
Features:
1. Sunlight Spectrum
The newly-developed ChloroBA largely combines the
advantages of HPS and sunlight spectrum.ChloroBA is
twice higher in luminous efficiency and par value compared
with old sp series grow light. Small size, high power, C1
ChloroBA suit for all plants.Wavelength ranges from 360nm to 870nm.2. High-efficient Three-in-one Design
ChloroBA LED, C1 lens and heat sink are designed as three-in-one
module, insuring the working temperature lower than 55 ℃. Heat
dissipation rate is higher in 30 percent. Can be used in different enviroment.3. Anti-sunburn Design
Special surface technique and anti-oxidation aluminum
coating can resist high temperture and sunburn. No color
fading and aging.4. Anti-insect Design
The unique small air outlet and air intake, together
with an individual cover can prevent issect from entering in.5. Anti-drip Design
Prevent the water-drop,enhance reliability6. Prism Principle
Lens is designed according to prism principle.
It can refract most suitable full spectrum and filter useless spectrum
for plants, largely accelerate the growth of the plants.
7. Fast Replacement
Replace any component within 1 minute without any special tools and/or technician. One normal screw driver is enough.
package List:
1X ChloroBA C2 LED Grow Light
1X LED Grow Light Hanger
1X Power Cord
Scientists Have Proposed \"Space Garden\"
In nowadays, the demand for LED Grow Lights is increasing with more and more people growing plants indoors. No matter in our life or in science. Led grow lights bring us fresh food and leading us to a better life.
Led grow lights are gradually applied to science and technology. The future of the moon and Mars astronauts would enjoy fresh food from the new type “Space Greenhouse”. At present, German researchers are testing \"space greenhouse system\", it uses the circulation urine to make fertilizer, they hope to build the first space greenhouse in Antarctica in 2016, and used to test the feasibility of space garden.
Currently, people spend more time in greenhouse. But for indoor greenhouse, what are required for the plants to grow sucessfully. These factors are water, maintaining proper balance between temperature and ventilation and the most important thing to be taken care of is that there should be a proper arrangement of light, so that the plants can survive in an indoor environment.
And led grow light can provide enough light spectrums for plants growth, what’s more, led grow light can enhance vegetables growing and flowering in greenhouse system without normal sunshine. More importantly than that, led grow light could increase vegetables’ output, which can surpass nature lights. Researchers can use led grow lights to make fast grow plants for research. That’s why led grow light plays an important role in this space greenhouse system.
Space Greenhouse System is newly developed by the Berlin aviation center, it is called \"Environmental design & Evolution nutrition system (EDEN)\", the project is invested by the European space agency, space greenhouse garden will be combined with the life support system, urine can be used to cycle and make fertilizer, helps the moon and Mars environment of vegetable plants to grow. The first Space greenhouse garden is estimated to test in a desolate environment of the South Pole in 2016-2017, it will take nine months, the study focused on the biological regeneration life-support system, especially the greenhouse gas capsule, and the science and technology of human’s future survival in space environment and the earth Antarctic. The research engineer Lucy Lucie Poulet of German aerospace center said: \"one of our plans is to test greenhouse capsule in the third science station in Antarctica Neumayer, the research group will live in the isolation type of bad environment for 9 months of life, observating on plant growth situation in greenhouse capsule. We hope to find a method to satisfy the astronauts to enjoy fresh fruits and vegetables in space.\" Finally this simulation test site will provide important research data for human’s future exploration of space and the extension of human settlements in solar system.
Led grow lights applied to science
Engineer Daniel Schubert holds lettuce at the German Aerospace Center on July 21, 2014 in Bremen, Germany:
Researchers hope their system could allow astronauts on the moon and Mars to grow their own food.
The system could eventually be used to create a greenhouse on the lunar surface The system is being developed at the German Aerospace Center in Bremen, and is called EDEN (Evolution & Design of Environmentally-closed Nutrition sources).
Funded by the European space Agency, the greenhouses will contain combined life-support systems which use recycled urine to manufacture fertilizer, helping to grow vegetables for a lunar and Mars environment.
The first greenhouse will be tested for nine months in 2016/17 in an inhospitable environment in the Antarctic.
This research initiative focuses on bioregenerative life support systems, especially greenhouse modules and technologies for future human habitats in remote locations in space (the Moon, Mars) and on Earth (Antarctica), the team say.
\'One of our projects is to test a greenhouse module at the Neumayer Station III in Antarctica, where the winter team stays in total isolation for nine months in a row in a hostile environment,\' said DLR research engineer Lucie Poulet.
Engineer Daniel Schubert measures the size of a cucumber at the German Aerospace Center, where Scientists and engineers from the German Aerospace Center (DLR) are developing greenhouses for a potential Mars colony.
The first greenhouse will be tested for nine months in 2016/17 in an inhospitable environment in the Antarctic.
\'We want to find ways to meet the group’s needs when it comes to fresh fruits and vegetables but it will also enable us to study the psychological influence of plants on human isolation.\'
\'Ultimately this analog test site will enable to generate good research data for future human space exploration and in extension human settlement in the solar system.
The greenhouses will contain combined life-support systems which use recycled urine to manufacture fertilizer,
helping to grow vegetables for a lunar and Mars environment.
Engineer Daniel Schubert holds lettuce at the German Aerospace Center - and astronauts on Mars could soon be
using the same system to grow food
\'Naturally, space travel is interesting in itself, but it is equally important for us to be involved in this project in order to demonstrate that our technology is the light system of choice for plant science research,\' said Christopher Steele of Heliospectra, which manufactures the LED lights in the system.
\'We want to be a part of developing the plant growing opportunities of the future, whether it is here on earth or in space.