Know when your municipal wells are turning into the ocean before the county finds out
BrackishOS hammers real-time salinity sensor data from IoT clusters across coastal freshwater aquifer well fields and screams at water utility operators the moment chloride levels start creeping toward EPA secondary MCL thresholds. It auto-generates FEMA coastal resilience compliance reports and keeps a full immutable audit trail for state environmental regulators who absolutely will show up after the next major storm surge. Coastal municipalities are one bad hurricane season away from a full drinking water crisis — this is the thing standing between them and the ocean.
- Real-time chloride and salinity spike detection with configurable threshold alerting across distributed well field sensor arrays
- Processes up to 847 concurrent IoT sensor streams with sub-200ms alert latency under full load
- Native SCADA bridge adapters for legacy Modbus and DNP3 infrastructure that nobody else bothered to support
- Auto-generated FEMA coastal resilience compliance reports with zero manual data entry
- Immutable audit trail with cryptographic chaining — regulators can show up whenever they want
ArcGIS Online, Modbus RTU/TCP, DNP3, FEMA BRIC Portal, EPA SDWIS, HydroSense Cloud, Trimble Unity, USGS Water Services API, AquaVault Pro, Everbridge, PagerDuty, SaltWatch
BrackishOS runs as a set of loosely coupled microservices — ingest, alerting, compliance, and audit — each deployable independently or as a single-node stack for smaller utilities that can't afford a DevOps team. Sensor telemetry lands in Redis for long-term time-series persistence, while all compliance records and audit chain data are written to MongoDB for its robust transactional guarantees. The SCADA bridge layer runs as a hardened sidecar process and speaks directly to field hardware over serial or TCP without any cloud dependency. Everything is designed to keep running when the storm hits and the internet goes down.
🟢 Production. Actively maintained.
Proprietary. All rights reserved.