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You are here INDUCTION Reflector for T5 and T8 Reflector for T5,T8 tube

Reflector for T5,T8 tube

2xClips included
3.48 €*
*(including 20 % tax)
:
What is Nanoflex®?

Nanoflex® is a product of nano-scale advanced material research. It is a high reflective and diffusive optical coating. Its total reflectance (SCI) and diffuse reflectance (SCE) are measured to be up to 95% and 94% respectively in visible spectrum.
Nanoflex® Optical Reflector
Nanoflex® optical reflector is a result of advanced material research in Hong Kong. The optical coating on Nanoflex® provides ideal diffusive and reflective surface to capture light rays from any light source to enhance illumination.
Nanoflex® Optical Reflector is designed to cater the needs of end users to perform energy-efficient lighting retrofits, which enables energy savings while fulfulling the luminous standards.

Benefits

• Cost Effective and reduce lighting energy consumption by up to 50%.
• Can be used with existing luminaire without the need for further capital expenditure.
• Capture light loss from luminaire’s design limitations and efficiently reflect the light back to workspace.
• Enhance the efficiency of existing fluorescent tube by up to 40%.
• Up to 10 years of performance consistency.
• Enhance luminance in climate controlled environments without increasing heat source from electrical parts, thus further
reduce air-conditioning load to enhance energy savings.
• Safe and simple installation, minimal maintenance required.
• Perfectly complement energy-efficient lighting solutions such as induction, T5, T8, and T10 fluorescent lamps, which are
commonly used in commercial buildings and offices, industrial building and factories, hotels, government buildings and
schools, hospitals and healthcare centers.
Technical Details
How does Nanoflex® enhance diffuse reflectance?

How does Nanoflex® save energy? (via de-lamping)

• Nanoflex® is coated with efficient photometric diffusing material on molded metal alloy that maximizes photometric 
performance.
• Nanoflex® has total reflectance of 95% while the distinguished diffuse reflectance is 94% in visible wavelength. While 
combined with high performance light source such as induction, light performance is significantly enhanced.
• Nanoflex® is heated resistant up to 400°C and does not contain any hazardous substance.
• Nanoflex® has been tested for its durability, safety, eco-friendliness and photometric performance.
Application on Induction Streetlight

Nanoflex® Optical Coating

Small Particles, Big Impact
Nanoflex® Optical Coating is a proprietary UV-resistant eco-friendly material giving ideal reflective and diffusive surface for enhancing illumination efficiency and uniformity. Nanoflex® Optical Coating possesses the properties of weathering and acid resistance, improving service life and reduces life-cycle material costs.

Features
High Reflectance and Diffusion
Nanoflex® Optical Coating has distinguished property toward reflection of visible light source. Its 95% Total Reflectance and 94% Diffuse Reflectance in visible light range represents a new choice of reflective material for conventional and contemporary lighting applications.



The Total Reflectance refers to the total amount of light reflected from a surface as a percentage of the incoming light. High Total Reflectance means a low reflectance loss as Nanoflex® Optical Coating can reflect almost 95% of total amount of incoming light with only 5% of reflectance loss. On the other hand, Conventional Aluminum Reflection Panel can have light loss of more than 20%.

Nanoflex® Optical Coating generates better lighting quality on uniformity and color rendering due to its excellent high Diffuse Reflectance and steady performance over the visible light range. A coating with High Diffuse Reflectance will reflect light in broader directions, thus better uniformity. Nanoflex® Optical Coating can provide a broader angle of
illumination for luminaire and better uniformity for the environment. Conventional Aluminum Reflection Panel reflects light with narrow angles because of its single digit Diffuse Reflectance of 8% or less.

Nanoflex® Optical Coating has a better color rendering than Conventional Aluminum Reflection Panel. The figure to the below illustrates that Nanoflex® Optical Coating reflects light effectively with wavelength from 400nm to 760nm. Total Reflectance varies with wavelengths for Conventional Aluminum Reflection Panel, which will weaken the color rendering of objects under the same light source.



Substrate Material - Consistent Performance across Different Substrate Materials
The performance of Nanoflex® Optical Coating relies on its nano-scale surface structure. Hence it delivers consistent performance across various backing materials such as metals, fabrics, plastics and even water-proof papers.



Nanoflex® Optical Sheet
Nanoflex® - A95 combines aluminum sheet with Nanoflex® Optical Coating is an excellent material for all types of luminaire applications.

Characteristics
• Up to 95% of total reflectance and 94% diffuse reflectance
• Heat safety up to 400°C
• Weathering and acid resistant
• Resistant to yellowing, dirt and mold growth
• Water-resistant
• No residual odor
• Easy to clean, minimal maintenance required
• Eco-friendly

Photometric Performance
Nanoflex® Optical Reflector provides up to 20% better lumens and efficiency as well as 12% better diffusion than ordinary Aluminum Reflector.


ACCREDITATIONS
Nanoflex® is an eco-friendly material with the following international standards and recognitions:
• Spectral Reflectance Measurement - by TUV-PSB
• Brifish Standard 476 Part 6&7 - by TUV-PSB
• UV Aging Test - by WELLAB
• Restriction of Hazardous Substances Directive (RoHS) - by Bureau Veritas
• GREEN LABEL - by Green Council of HKSAR

Application on Fluorescent Tubes

Installation

: Attach mounting clips on Nanoflex® optical reflector and clip it onto the tubes

Before Installation (Single line lighting arrangement) After Installation (50% De-lamped)
Annual lighting energy savings (kWh) can be up to 50% while fulfilling the lighting quality standard

 

Last Updated: Tuesday, 22 May 2012 13:00
Joomlart

RACAIRO Induction Lamps

  1. The strong lamp tube is made of hard silicon glass with a melting point of 1600 degrees Celsius.
  2. The IC Ballast is an internationally patented circuit design that is more intelligent, smaller, lighter and longer lasting than conventional electronic ballasts. Operationally, it is more stable and is engineered to last 5-7 times longer than conventional electronic ballasts.
  3. The magnetic loop technology is an internationally patented design that has superior stability and is better shielded from electromagnetic interference.
  4. Electronic ballasts certified for EU
  5. Lamps and ballasts are designed to operate in temperatures between -40 C to +50 C.

Types and Wattages of RACAIRO Induction Lamps

  1. The first type is separate lamp and ballast style, the round shaped are available in: 40 W, 80 W, 120 W, 150W, 200W and 300 W. They are a stable product that is being currently shipped in 220 V.
  2. The second type of lamp is a separate lamp and ballast style, a rectangular shaped with wattages ranging from: 40 W, 80W, 120 W, 150W,  200 W, 300W.
  3. The third type is a compact style (lamp and ballast are combined). They are available in small wattages including: 10 W, 23 W and 40 W in 220V.

Since the lamps are electrodeless, they are engineered to last over 10 years (24 hours per day), maintenance free.

When the color temperatures of the Induction lamps are in the range of 2700k to 8000k, the color rendering index (CRI) is above 90.

The higher CRI makes objects look bright, clear and natural. When the luminous efficiency is above 80Lm/W, color rendering is perfect. It is easier to differentiate colors with a higher CRI.

Total Cost of Ownership

The total cost of ownership (TCO) includes the capital cost of the lighting project plus the overall operational and maintenance costs. Induction lamp technology is engineered to last 100,000 hours or 22.83 years and the metal halide lamp technology is engineered to last 20,000 hours or 4.56 years.

Therefore a customer would require changing their metal halide lamp system 5 times in 22.83 years. Typical paybacks for customers range from 2-5 years depending on the project.