Mendygo’s IoT-driven Water Management System provides centralized monitoring and control of water resources across facilities. From real-time flow monitoring to leak detection and process optimization, WMS helps reduce water wastage, improve efficiency, and ensure regulatory compliance.
A scalable IoT-driven architecture that connects on-site assets with cloud intelligence for real-time monitoring and control.
Our modular approach allows you to choose the specific solutions you need, creating a customized system that fits your unique requirements.
Track section-wise and tank-wise water usage
Monitor flow rates, levels, and pressure in real time
Alerts for consumption deviations and abnormal usage
Early detection of leaks in pipelines and storage tanks
Automatic notifications for overflows, dry tanks, or abnormal pressure drops
Reduce maintenance costs and prevent downtime
Monitor pump performance and energy usage
Optimize valve operations for efficient water distribution
Predictive maintenance to reduce failures and service costs
Track key parameters like pH, TDS, turbidity, COD, BOD, and dissolved oxygen
Ensure compliance with discharge quality regulations
Remote monitoring of aeration, filtration, and dosing systems
Continuous monitoring of water purity and treatment efficiency
Generate reports for water consumption, quality, and sustainability metrics
Track specific water consumption (SWC) per unit of production
Support ESG and regulatory compliance reporting
Select the most suitable flow meter based on utility type, operating conditions, and monitoring needs.
| Utility Type | Suggested Flow Meter | Operating Range & Key Specifications | Application & Benefits |
|---|---|---|---|
| Water | Electromagnetic Flow Meter | Pipe size: 10–3000 mm Accuracy: ±0.5% Pressure support: up to 40 bar | Ideal for conductive liquids, ensures accurate and maintenance-free water monitoring. |
| Diesel | Positive Displacement Flow Meter | High viscosity support Accuracy: ±0.2% Stable low-flow measurement | Suitable for fuel transfer and consumption tracking with high precision. |
| PNG / Gas | Thermal Mass Flow Meter | Wide flow range Direct mass flow measurement Low pressure drop | Enables efficient gas flow monitoring without temperature or pressure compensation. |
| Compressed Air | Vortex Flow Meter | Pressure: up to 25 bar High temperature tolerance Minimal maintenance | Designed for compressed air systems with consistent performance and durability. |
| Nitrogen | Thermal Mass Flow Meter | High accuracy at low flow Gas-specific calibration Stable readings | Provides precise monitoring for inert gas distribution and industrial applications. |
Select a pipe size to view detailed specifications and flow characteristics.
Click on a pipe size from the grid to view its detailed specifications
Q = A × v (Continuity Equation)A = π × (d/2)²P = P₀ + ½ρv² (Bernoulli)V = Q × t⚠️ Disclaimer: These calculations are for reference purposes only. Actual values may vary based on system conditions, pipe material, temperature variations, friction losses, and other factors.
Download the complete product brochure to explore system capabilities, architecture, integrations, and deployment models.
Detailed documentation covering features, system design, scalability, and real-world use cases.
Schedule a personalized demo and see how Mendygo’s management systems deliver automation, visibility, and control.