Providing Advanced Technology
FOR SUSTAINABLE HYGIENE
Alternative, Efficient, Sustainable UV-C LED Hygiene Solutions
A Balanced Ecosystem
We deliver fully automated tools with greater efficiency in performance and more energy saving in operations estimated at around 90% when compared with other sterilization options, which makes our solutions the go-to option when it comes to large-scale sustainability.
Global
Sustainability
The components constituting our solutions produce minimal carbon footprint in manufacturing based on innovative engineering methods that make our solutions easily integrated into different systems while maintaining reduced waste and no necessity for special treatment in recycling.
Effectiveness & Innovation
Safety, effectiveness, and innovation are key to advancing our aspiration as we constantly update, upgrade, and continuously develop our solutions to meet the global standards of quality testing, making our sustainable devices even more effective than non-environmentally friendly alternatives, such as chemicals.
UNLOCKING ACCESS TO THE FUTURE
We help our partners shape the path toward a safer future by integrating UV-C LED technology and scientific expertise for facilitated access to sustainability and efficiency.
90%
Less Energy Consumption versus Other Sustainable Solutions
100%
Automation Leading to Reduced Human Labor for Sterilization Operations
95%
Recyclable Components Constituting our Sustainable Systems
ZERO
Chemical Waste with No Special Considerations Needed for Application
50%
Less CO2 Emissions in Production versus Other Alternatives
100%
Safety Thanks to the Innovative Anchored Light System Methodology
BREAK THE CYCLE
Our Planet is Not the Same Anymore
Over the past 40 years, paper towel usage has grown by 400%. Our practices cause 695,000 tons of paper towel waste every day, mostly used for surface sanitization with chemical products, which basically means that we cut nearly 51,000 trees down every day for paper towels only!
Chemical disinfectants, on the other hand, are associated with high toxicity as they mostly kill viruses… and anything else that crosses their path.
We break the cycle with our fully automated, non-chemical, non-toxic, alternative solutions based on innovative applications of laboratory-test UV-C LED technology.
SAL Systems
UV-C LED Technology
Traditional
Chemical Disinfectants
Mercury-Containing
Alternatives
Fully Automated Process
No Human Interaction Required
Manual Sanitization
Efficacy Depends on Labor
Fully Automated Process
No Human Interaction Required
Zero Maintenance
Economic Solution
High Maintenance Cost
Elevated Overall Cost
Moderate Maintenance Cost
Less Economic Solution
Highest Effectiveness
Effective Against All Pathogens
Low Effectiveness
Low Efficacy in Sterilization
Moderate Effectiveness
Poor Efficacy Vs. Some Pathogens
Zero Damage to Electronics
UV-Based Technology
Heavy Damage to Electronics
Corrosion & Damage to Chips
Moderate Damage
Creates Long-Term Impact
Fully Recyclable
95% Biodegradable
Non-Recyclable
High Waste Generation
Requiring Special Treatment
Mercury is a Toxic Component
Zero Harmful Gases
No Ozone, No Aerosol, No CO2
Aerosol & Harmful Gases
High Environmental Damage
Ozone & Co2 Emissions
High Environmental Damage
Low Energy Consumption
Intensively Focused Energy
High Energy Consumption
In Manufacturing & Production
High Energy Consumption
Dispersed Energy Deployment
THE ANCHORED LIGHTING SYSTEM
LEADING THE FUTURE OF SUSTAINABLE HYGIENE
The Anchored Lighting System (ALS) constitutes the baseline of our scientific methodology. In its conceptual definition, ALS is based on focusing the light energy on a high-risk area to inactivate microbial activity, bacteria, and other infectious pathogens, which makes the difference when compared with other dispersed energy techniques, such as UV-LED devices or mercury vapor sources.
At SAL Systems, we make life better by channeling scientific advancements toward long-term sustainability and environmentally friendly solutions to bridge the gaps between our community aspirations and a modern understanding of innovative potentialities.