Adenosine Triphosphate (ATP) is the main energy molecule found in all living things.
By measuring the amount of ATP, we can determine the amount of organic matter including food, mold, bacteria and fungus that is present on any surface.
ATP Testing for Rapid and Accurate Cleanliness Validation
What is ATP Testing?
ATP Testing is Important
- Effective sanitization processes should remove and destroy nearly all dangerous organic matter.
- Improper sanitization is a potential health threat to your customers and employees.
- Know upfront whether your sanitization method actually destroys pathogens and microbes with ATP testing.
ATP Testing: Fast & Easy
Step 1
Swab the surface with a specialized tester.
Step 2
Break the liquid vile on the tester. The vile has an enzyme that reacts with the collected ATP on the swab to produce light.
Step 3
Insert the tester into the cleanliness monitoring device, which measures the intensity of emitted light with a specialized photodiode.
Ensure™ Touch
Sanitization Monitoring
Tons of Useful Features:
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Accurately determines cleanliness levels of surfaces
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User-friendly and ergonomic smartphone style
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Easily view results and create reports for each location
Many Different Applications:
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Test and compare different disinfection methods
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Train and monitor cleaning crews
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Objectively meet cleaning standards
UltraSnap™
ATP Testers
Accurate and Long-Lasting ATP Testers:
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All-in-one ATP sampling test that pairs with Ensure™Touch
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Unique liquid-stable reagent provides superior accuracy
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Long-lasting signal strength
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15-month shelf life in refrigerator
Applications
✔ Hotels
✔ Hospitals
✔ Nursing Homes
✔ Offices
✔ Airports
✔ Subway Stations
✔ Cruise Ships
✔ Public Transportation
✔ Factories
✔ Arenas
✔ Warehouses
✔ Gyms
Particle Counter for Rapid and Accurate Indoor Air Monitoring
What are Particle Counters?
Particle Counters measure the number of particles of certain sizes present in indoor air. Taking measurements before and after using an air disinfection unit is an indicator of how well the unit is working.
Particle Count Monitoring is Important
Pathogen-laden indoor air is a health threat to patients, customers and employees. Effective air disinfection units should remove and destroy nearly all viruses, bacteria and particulate. Particle counters are the most cost-effective, quickest way to quantitatively monitor indoor air quality. These particle counters accurately measure particulate levels, which serve as an indicator for other health threats in the air we breathe. Know upfront whether your air disinfection methods actually remove and destroy particulates, pathogens and microbes with particle count monitoring.
Air Particle Testing: Fast & Easy
Step 1
Turn on the particle counter.
Step 2
Measure the particle count in selected areas. Both models measure particle sizes ranging from 0.3 to 25 µm; Model 9303 has 3 simultaneous size channels, and Model 9306 has 6.
Step 3
Log measurements and note conditions at time of reading. Particle count data can be conveniently viewed on screen, downloaded using TrakPro™ Lite Secure Software supplied as standard, or printed directly to an optional external printer.
Breathe a Little Easier with TSI Particle Counters
Features & Benefits:
- Accurately determines indoor air particle levels
- Easy to configure using the intuitive keypad
- High impact injection molded plastic
- Light weight and ergonomic style
- Easily view results and create reports for each location
- Operates on included rechargeable lithium-ion battery or AC power
- Flow rate 0.1 CFM (2.83 L/min)/particle size range 0.3 to 25 µm
- ISO 21501-4 compliant
How The Particle Counters Work:
The sample aerosol stream is drawn through a chamber with a laser-based light source. The laser light interacts with the entrained particles and is scattered. The amount of light scattered is proportional to the size of the particle. Photo-detectors convert the burst of light energy from each particle into a pulse of electrical energy. The size of the particle is determined by measuring the height of the signal and referencing it to a calibration curve; the quantity is determined by measuring the number of pulses. This allows for sizing and counting of individual particles.