Critical infrastructure

Modern operational platform for water utilities

Intelligent monitoring and AI analytics combining technology with long-term hydrogeological practice

Advanced AI models
Energy optimization
Failure prediction
Well performance control
Critical infrastructure security
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Managed wells
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Supply continuity
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Energy savings
Operational continuity

Digital water intake operation record

Complete digital lifecycle record for intakes and water treatment facilities

Parameter history

All operating parameter measurements in one place

Maintenance history

Documentation of all maintenance actions and their outcomes

Failure history

Full record of failures, repairs, and downtime

Documentation archive

Geological work plans, water permits, hydrogeological documentation, risk analyses, and water safety plans

Reports for public authorities

Automated reporting for authorities and regulatory institutions

Operation record
Well S-001 - Water intake
94% Efficiency
12 Years in operation
3 Regenerations

Go to the Operation Record app

Integration with hydrogeology and fieldwork

Technology supported by proven groundwater practice

Well diagnostics

Comprehensive technical and visual diagnostics of deep wells

Pumping tests

Performance testing and well/pump characteristic analysis

Risk analysis

Threat assessment and preventive action planning

Water quality monitoring

Analysis of physicochemical and microbiological test results

Real-time monitoring

Full control over water intake infrastructure

Hydraulic parameters

Flow (m³/h), pressure, pump head f(Q), static and dynamic level, drawdown, local losses, NPSH

Energy and power

Energy consumption f(Q), electrical parameters (current, voltage, power, cos phi), energy balance, overloads, dry run

Water quality

pH, turbidity, chemistry (corrosion), iron, and other drinking water quality parameters

Connectivity

GSM/satellite communication status, device online status, and transmission continuity

HydroNexis - Operations Dashboard
Flow
87.4 m³/h
2.3%
Pressure
4.2 bar
stable
Power
45.2 kW
5.1%
Efficiency
94 %
optimal

H=f(Q), P=f(Q) charts

Analysis of pump characteristics and energy use as a function of flow rate

Alerts

Real-time alerts on threshold exceedances and failures

Historical analysis

Trend charts, period comparisons, forecasting

Critical infrastructure security

NIS2-aligned security for water infrastructure systems

NIS2 compliance

Full alignment with NIS2 requirements for critical water infrastructure

24/7 monitoring

Continuous infrastructure supervision around the clock

Logs and incident register

Audit trail of all operations and complete incident records

Access control

Role-based access and permission segmentation

Data redundancy

Secure storage, backup, and data recovery

System resilience

Hardware and software redundancy ensuring business continuity

Comprehensive support for water utilities

End-to-end support for water and wastewater operators

Monitoring and analytics

  • Continuous well monitoring
  • Real-time analytics
  • Failure prediction

Hydrogeological support

  • Intake performance optimization
  • Operational supervision of intakes
  • Technical consulting

Reporting and compliance

  • Reporting automation
  • Regulatory compliance
  • Regulatory documentation

Sustainability

Responsible water resource management for future generations

Water resource protection

Precise intake operation management helps protect groundwater from overexploitation

Energy efficiency

Energy use reduction up to 27% by optimizing deep-well pump operation

EU climate goals

Support for Water Framework Directive goals and the European Green Deal in the water sector

Emission reduction

Monitorowanie i redukcja śladu węglowego CO₂ związanego z eksploatacją infrastruktury wodnej

Contact us

Book a free technical consultation. We respond within 24 hours.

Business hours
Pn–Pt, 8:00–16:00
Coverage area
All Poland

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Thank you for contacting us. We will reply within 24 business hours.

sw. Alberta Chmielowskiego 1, 97-400 Belchatow

Frequently asked questions

Yes. The system is scalable - from individual wells to full management of an entire intake network. We offer packages tailored to infrastructure size.

Implementation starts with an infrastructure and needs audit. Then we configure the platform, integrate existing data sources, and train your team. Typical rollout time: 4-12 weeks depending on scope.

HydroNexis integrates with existing measurement hardware. Many data points can also be entered manually. For full automation, we provide compatible probes and IoT modules.

The system monitors flow, pressure, pump head, static and dynamic levels, drawdown, local losses, NPSH, energy consumption, electrical parameters, overloads, water quality (pH, turbidity, iron, chemistry), and communication status.

Yes. We apply end-to-end encryption, data redundancy, regular backups, and NIS2-aligned controls. Data is hosted in certified secure infrastructure.

The platform automates legally required reporting, including mandatory submissions to national water authorities. This supports full compliance and fast generation of required operational documentation.

Yes. We offer a free demo and trial access to selected features. Book a consultation and we will prepare a tailored presentation.

Yes. We analyze pump power draw, unit indicators (m3/kWh), and recommend optimal operating setpoints. Energy-intensity reduction is one of the key benefits.