WATER

Assure the future of the water distribution and treatment by reducing cost, energy and risk

Book a Demo ❯

WATER

Assure the future of the water distribution and treatment by reducing cost, energy and risk

Book a Demo ❯

WATER

Key Benefits

Early Fault Detection

· Detects electrical, mechanical, and process-related faults at an early stage, preventing unexpected service interruptions.

· Enables proactive maintenance strategies to ensure consistent water supply and treatment quality.

Pump Performance Monitoring

· Tracks flow and head parameters to ensure pumps operate at their best efficiency point, critical for water distribution and treatment efficiency.

· Identifies performance deviations that can lead to energy waste or service disruptions, enabling timely interventions.

Cost-Effective Implementation

· Low start-up and operational costs by eliminating the need for additional hardware or sensors

· Reduces maintenance expenses by detecting issues early, preventing costly equipment failures or downtime.

Minimal Installation Effort

· Simple and quick setup without requiring direct contact with equipment, minimizing operational disruptions.

· Easily integrates into existing water management systems without significant changes to infrastructure.

Enhanced Operational Efficiency

· Monitors the condition and performance of critical assets, optimizing energy usage and water delivery efficiency.

· Extends the lifespan of equipment, reducing the total cost of ownership for utilities and municipalities.

Real-Time Insights

· Provides continuous monitoring and actionable insights through electrical signals, supporting data-driven water management.

· Enables remote monitoring for improved oversight and quicker response to operational issues.

Compatibility with Pharmaceutical Operations

· Designed to handle the challenges of varying load demands and harsh environments typical in water and wastewater management.

· Suitable for key applications such as pumps, aerators, blowers, and compressors used in water distribution and treatment plants.

Sensorless Monitoring

· Eliminates the need for installing physical sensors on equipment, reducing installation time, complexity, and costs.

· Ideal for outdoor, remote, or submerged environments, such as pump stations or water treatment facilities.

Incorporating predictive maintenance from Artesis into water industry operations leads to significant benefits, including decreased overall maintenance costs, improved energy efficiency, proactive clogging issue detection, and a proactive approach to asset management. This approach ensures a reliable and cost-effective operation while prioritizing sustainability and environmental responsibility.

Conveyance System Pumping Stations

Artesis provides comprehensive monitoring for conveyance system pumping stations, overseeing centrifugal, Archimedes, and screw pumps. Our technology is designed to monitor both the mechanical and electrical conditions, ensuring a thorough assessment of the equipment’s health. Artesis excels in detecting variations in the load, particularly crucial for identifying potential leakages in the wastewater system pumping. With our advanced monitoring solutions, we offer a proactive approach to maintenance, enhancing the reliability and efficiency of conveyance system pumping stations.

Water Treatment

Artesis offers extensive monitoring capabilities for various components in water treatment facilities:

Settling and Sedimentation Tanks:

- Monitor motors actuating tanks’ chains and circular tank arms.
- Ensure comprehensive oversight of settling and sedimentation processes.

Sludge Handling:

- Monitor sludge conveying vertical pumps and sludge mixers.
- Achieve comprehensive oversight without the need for additional sensors.

Final Clarifiers:

- Monitor pumps, submersible mixers, and submersible agitators without the installation of sensors.
- Ensure optimal performance and longevity of equipment in final clarifiers.

Secondary Water Treatment:

- Monitor compressors for aeration tanks.
- Track the condition of air diffusers, enhancing aeration efficiency.
- Easily monitor surface aerators in aeration tank facilities without the need for additional sensors on the motor.

Solid Processing Monitoring

Artesis excels in monitoring critical components in solid processing systems:

1. Digestor Tank Mixers and Sludge Mixers:

Monitor without the need for sensor installations.
Artesis technology oversees electrical and mechanical conditions, including the low-speed shaft and the impeller.

2. Solids Dewatering Systems:

Monitor various types of machines, including decanter or centrifugal systems, screw presses, and belt presses.
Artesis technology ensures comprehensive oversight, contributing to the reliability and efficiency of solids dewatering processes.

Artesis’s advanced monitoring solutions provide a non-invasive and effective approach to ensure the health of critical components in solid processing systems. This proactive monitoring helps detect and address electrical and mechanical faults, promoting the longevity and optimal performance of equipment in solid processing applications.

WATER

Application Areas in the Water Industry

Pumps

Raw Water Pumps: Monitoring intake pumps for early fault detection and efficiency optimization.

Booster Pumps: Ensuring reliable operation for maintaining water pressure in distribution networks.

Submersible Pumps: Sensorless monitoring of pumps in wells, reservoirs, and hard-to-reach locations.

Water Treatment Plants

Filtration Systems: Monitoring motors in sand filters and membrane systems to ensure consistent operation.

Chemical Dosing Pumps:Ensuring precision and reliability in chemical treatment processes.

Backwash Pumps:Tracking performance to maintain filtration system efficiency.

Wastewater Treatment Plants

Aeration Systems:Monitoring blowers and motors used for aeration to optimize energy efficiency.

Sludge Pumps:Ensuring reliability of pumps used in sludge transfer and dewatering systems.

Mixers and Agitators: Monitoring mixing equipment for consistent operation in biological treatment processes.

Desalination Plants

High-Pressure Pumps: Monitoring pumps critical for reverse osmosis processes to detect early-stage faults.

Energy Recovery Devices: Ensuring optimal performance and energy savings in seawater desalination systems.

Distribution Networks

Pressure-Boosting Systems: Monitoring equipment to ensure consistent pressure throughout water distribution lines.

Pipeline Pumps: Ensuring the efficient transfer of water over long distances.

Irrigation Systems

Irrigation Pumps: Monitoring motors and pumps used in large-scale agricultural water supply systems.

Canal Systems: Tracking the condition of pumps and motors to ensure reliable water flow in irrigation networks.

Auxiliary Systems

Cooling Towers: Monitoring motors and pumps in water cooling systems used in industrial plants.

Conveyors: Ensuring reliability in sludge handling systems for wastewater treatment plants.