Safe
Efficient
Eco-friendly
Farewell to traditional mercury lamps—more eco-friendly, efficient, and safe.
The Principle Of UV Disinfection
Ultraviolet (UV) light is generally divided into UVA (315–400 nm), UVB (280–315 nm), and UVC (200–280 nm).The UVC band, also called the “solar- blind” band, has a short wavelength and high energy, capable of destroying molecular structures in microbial cells in a short period.By damaging microbial DNA and RNA, it causes rapid cell death and achieves a highly efficient, broad-spectrum sterilization effect.
Digital Disinfection Technology
The cutting-edge digital disinfection technology based on semiconductor chips.
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Intelligent Drive and Control System
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Intelligent Drive and Control System
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UVC Enhancement Secondary Optics Design
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Deep Ultraviolet (DUV) Emitter based on Semiconductor LED Chips
More Efficient Disinfection
The technology employs semiconductor ultraviolet light sources with stronger directionality and unique optical enhancement technologies, making the ultraviolet irradiation intensity more than 5 times higher than that of traditional technologies.
Wider application scenarios
The technology features miniaturization, strong environmental adaptability, and high portability, allowing for broader application than traditional technologies.
Lower operating costs
① The equipment adopting the technology has a longer service life and lower maintenance costs.
② Combined with the intelligent control system, it consumes less energy and saves energy expenses.
More eco-friendly and safer
There is minimal concern for waste disposal during manufacturing, or secondary pollution during operation. The ultraviolet leakage prevention and sensing control systems ensure the safety of use.
Semiconductor-based ultraviolet light sources offer higher controllability, and devices based on JOREVS technology can better integrate with intelligent control systems, achieving digital and intelligent physical disinfection.
Daily Power Consumption Comparison
Daily Power Consumption Comparison of UV Technologies by Flow Rate
Due to its shortcomings such as short lifespan, high energy consumption, complex maintenance, and mercury pollution, a series of alternative technologies have emerged for traditional mercury lamp water sterilizers, bringing innovation to the water sterilization field. As a new generation of third - generation semiconductor light source, UVC - LED water sterilization technology demonstrates significant advantages over traditional mercury lamps in many aspects.
Advantages Of UVC-LED
5,000 - 8,000 hours
Lifespan:
10,000 - 25,000 hours
Startup Time:
Instant start; irradiation time can be precisely controlled
Maintenance Cost:
Low maintenance cost; no replacement cost for consumables
Environmental Friendliness:
Mercury-free; no ozone emission
Energy Consumption:
Only 10%-20% of that of mercury lamps. standby energy consumptionis near zero.
Lifespan:
Startup Time:
Requires 3 - 15 minutes of preheating to reach full power
Maintenance Cost:
Costly and complex; requires regular replacement of lamp tubes, ballasts, etc.
Environmental Friendliness:
Contains mercury; Emits ozone during operation
Energy Consumption:
High energy consumption; requires continuous operation (consumes power even when not in use)
UVC LED
Traditional Mercury Lamps
Bactericidal Rate Up To 99.999%
Before disinfection, various pathogens such as Escherichia coli and norovirus lurk in the water. These pathogens are invisible to the naked eye but pose a constant threat to health. UVC LED disinfection utilizes ultraviolet light around 275nm to non-chemically damage the genetic material of microorganisms, rendering bacteria and viruses inactive. After disinfection, the bactericidal rate reaches as high as 99.9%, ensuring that the water quality meets medical-grade safety standards.
Before
After
Cryptosporidium
E.coli
Coliform
Noro
Algae
Giardia
Hepatitis
Salmonella
Continuous innovation and prestigious recognition ensure purer, safer water for your home and business.
Awards
