General Product
UV & Ozone Disinfection Plants
UV and ozone are high-performance disinfection tools when contact time, dose, and pre-polish quality are engineered correctly.
Site-ready equipment
Engineered trains with clear handover — from commissioning checks to operator routines.
Project overview
UV disinfection inactivates microorganisms using germicidal wavelengths, while ozone adds strong oxidation for microbial and organic control.
System performance depends on upstream clarity, dose control, and instrumentation — not just reactor size.
Unicare integrates UV/ozone into full treatment trains with operating guidance for consistent microbiological outcomes.
Each system is engineered after source-water analysis, hydraulic checks, and utility integration constraints to avoid underperforming installations.
Our project approach includes design basis confirmation, instrumentation planning, and operator-focused handover documents.
For advanced disinfection projects, UV and ozone are often paired with upstream filtration and downstream residual monitoring.
Typical applications
- Drinking water disinfection
- Reuse water polishing
- Process water hygiene
- Post-RO microbial control
- Commercial and institutional utility infrastructure
- Industrial process and service-water lines
Technical snapshot
| UV configuration | Inline reactor with serviceable lamp sleeves |
|---|---|
| Ozone system | Generator + contact arrangement per duty |
| Control | Dose/contact-time focused interlocks |
| Best practice | Integrate with upstream filtration and SOP-driven O&M |
| Documentation package | GA/P&ID, O&M manual, commissioning checklist, and preventive maintenance plan |
| Execution model | Design, supply, installation support, and post-commissioning service pathways |
| Performance controls | UV dose integrity and ozone contact effectiveness validation checkpoints |
How the system works
Step 01
Pre-polish quality check
Ensure turbidity and transmissivity are within UV/ozone design envelope.
Step 02
Primary disinfection
Apply UV dose and/or ozone injection with controlled contact.
Step 03
Residual management
Manage downstream residuals per application and compliance context.
Step 04
Monitoring
Track lamp health, dose indication, and oxidation performance trends.
Step 05
Engineering and approvals
Freeze P&ID logic, utility tie-ins, and deliverable schedule before fabrication.
Step 06
Commissioning and handover
Run performance checks, SOP training, and acceptance documentation for stable startup.
Why teams choose this solution
High microbial control potential
Useful polishing layer for reuse lines
Supports lower chemical dependence in some cases
Scalable from compact to industrial duty
Design decisions tied to actual source-water and operating variability
Structured commissioning with measurable startup checkpoints
Operator-friendly SOPs for day-to-day consistency
FAQs
Can UV work on turbid water?
Performance drops when UV transmittance is poor; upstream polishing is essential.
When should ozone be combined with UV?
When oxidation + disinfection objectives both matter and contact control is available.
What project inputs are required before final design?
Typical inputs include source-water report, flow demand profile, available footprint, utility constraints, and compliance/reuse target.
Do you support installation and post-commissioning service?
Yes. Unicare supports installation planning, startup supervision, operator training, and AMC-oriented service continuity.
Need this system designed for your site conditions?
Share your raw-water profile, flow target, and operating constraints. Our team will suggest the right treatment train with practical O&M expectations.