Technology Product
Electro-Chlorinator Plants
Electro-chlorination supports safer, on-site disinfectant generation with dosing control for utility systems.
- On-site NaOCl generation
- Metered residual dosing
- PLC-friendly integration
.JPG&w=3840&q=75)
Utility-grade disinfection
Generation, metering, and monitoring packaged for continuous duty — less bulk chemical handling on site.
Project scope
Project overview
- Brine quality control
- Cell health & output
- Residual-driven dosing
Electro-chlorinator plants generate disinfectant on-site from brine and power, reducing bulk chemical handling dependency.
Performance depends on feed quality, cell maintenance, and dosing control tied to real demand.
Unicare integrates generation and dosing with monitoring logic suitable for continuous utility operations.
Technology products are configured around process control requirements, not only equipment rating, to maintain reliable long-term performance.
Unicare emphasizes integration readiness with upstream and downstream treatment blocks for smoother commissioning.
Generation train
How the system works
From conditioned brine through electrolytic generation to metered dosing — tuned for stable residual performance.
- 01
Step 01
Brine preparation
Prepare controlled brine feed for generation cells.
- 02
Step 02
Electrolytic generation
Generate disinfectant solution on-site.
- 03
Step 03
Metered dosing
Inject disinfectant based on process demand and target residual.
- 04
Step 04
Monitoring
Track output and residual performance for stable disinfection.
- 05
Step 05
Process integration check
Validate instrumentation, controls, and hydraulic behavior with existing treatment infrastructure.
- 06
Step 06
Performance optimization
Tune operating envelope and maintenance intervals after startup trend review.
Design anchors
Technical snapshot
Summary parameters for integration meetings — full datasheets issued during detailed engineering.
Core principle
On-site electrolytic disinfectant generation
Dosing mode
Controlled metering to treatment line
System fit
Continuous utility and sanitation duty
Maintenance
Cell and dosing-system preventive service
Control readiness
Interlock-ready architecture with operator and maintenance visibility
Lifecycle support
Service scheduling, troubleshooting protocols, and upgrade pathways
Operator outcomes
Why teams choose this solution
Practical advantages when disinfection must stay stable across shifts, seasons, and variable demand.
Reduced bulk chemical logistics
On-demand generation architecture
Metered residual control
Integration-ready with treatment PLCs
Integration-friendly with existing treatment ecosystems
Control and instrumentation emphasis for process stability
Lifecycle-oriented performance support
Electro-chlorination
FAQs
Sizing, maintenance, and how this compares to bulk chemical disinfection.
Why choose electro-chlorination over bulk chemical dosing?
It can reduce handling/storage burden and improve operational autonomy through on-site generation.
Does it still require maintenance?
Yes, generation cells and dosing lines need scheduled service for stable output.
Can technology products be added to existing plants?
Yes, most deployments are retrofit-compatible after hydraulic, control, and performance envelope validation.
How is long-term reliability maintained?
Through preventive maintenance discipline, trend-based parameter review, and process-specific service intervals.
Can electro-chlorination be automated with residual feedback?
Yes, dosing can be linked to process controls and residual monitoring for tighter disinfection management.
Disinfection roadmap
Need this system designed for your site conditions?
Share flow profile, target residual strategy, and existing chemical handling constraints. We’ll map generation capacity, interlocks, and service intervals to your duty.