APPLICATIONS
Real-World UVC Implementation
We engineer UVC disinfection systems for three primary domains — air, water, and surface. Each application demands specific optical configurations, dose strategies, and safety architectures.
AIR DISINFECTION
Engineered Air Treatment Systems
Airborne pathogen reduction requires precise UVC dose delivery within dynamic airflow environments. We engineer systems that account for air velocity, turbulence, humidity, temperature, and occupancy patterns to deliver validated germicidal effectiveness.
Upper-Room Systems
Ceiling-mounted UVC fixtures that create a disinfection zone above occupied spaces. Engineered with precise beam control to maintain safe irradiance levels at occupant height while maximizing pathogen exposure in the upper air volume.
In-Duct Systems
UVC arrays integrated into HVAC ductwork for continuous air treatment. Designed around specific airflow velocities, duct geometries, and target pathogen susceptibility to ensure adequate dose delivery at maximum system airflow.
Standalone Units
Self-contained air disinfection devices for targeted deployment. Engineered with internal airflow management, filtration integration, and validated dose delivery for specific room volumes and air change requirements.
WATER TREATMENT
Precision Water Purification Systems
UVC water treatment demands exact dose delivery across variable flow rates, water quality conditions, and transmittance levels. We design systems with validated reactor geometries, optimized LED placement, and real-time dose monitoring for consistent pathogen inactivation.
Point-of-Use Systems
Compact UVC treatment units installed at the point of consumption — faucets, dispensers, and appliances. Designed for low flow rates with high dose efficiency, minimal pressure drop, and integrated validation sensors.
Point-of-Entry Systems
Whole-facility UVC water treatment installed at the main supply line. Engineered for higher flow rates with reactor chambers optimized for dose uniformity across the full flow cross-section and variable transmittance conditions.
Process Water Treatment
Industrial and commercial UVC systems for process water applications including pharmaceutical, food and beverage, and semiconductor manufacturing. Designed to meet application-specific purity standards and regulatory validation requirements.
SURFACE STERILIZATION
Controlled Surface Disinfection
Surface disinfection with UVC requires precise irradiance control, exposure timing, and safety interlocking. We engineer systems that deliver validated surface doses while managing shadowing, distance variation, and material compatibility constraints.
Medical Device Disinfection
UVC systems for medical instrument and equipment surface disinfection. Engineered with fixture geometries that minimize shadowing, exposure protocols validated against specific bioburden targets, and safety interlocks for clinical environments.
Laboratory Systems
Biosafety cabinet, cleanroom, and laboratory surface disinfection systems. Designed for integration into existing workflows with automated exposure control, dose verification, and compliance with laboratory safety standards.
Industrial Applications
Production line and facility surface disinfection for food processing, packaging, and manufacturing environments. Engineered for continuous operation, conveyor integration, and compliance with industry-specific sanitation requirements.
OUR APPROACH
Application-Driven Engineering
Every application presents unique constraints. Our engineering process starts with the specific disinfection target and works backward through dose requirements, optical design, system architecture, and manufacturing strategy.
01
Target Analysis
Define the pathogen, contaminant, or bioburden. Establish required log reduction and dose requirements based on published susceptibility data.
02
System Architecture
Select the optimal LED wavelength, optical configuration, and delivery method for the specific medium — air, water, or surface.
03
Dose Validation
Model and measure actual dose delivery under real operating conditions. Verify performance against requirements with calibrated instrumentation.
04
Production Design
Translate validated system architecture into a manufacturable product with documented specifications, qualified suppliers, and production processes.