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Sludge Treatment Automation

In wastewater plants, automated sludge management systems control pumps, monitor sludge levels, and handle drying processes. This not only reduces manual handling but also optimizes sludge disposal, reducing operational costs.

Artec-Water
TGT Name

Innovative Water Treatment Solutions

Industrial Automation

Flow-meter

Expertise

Real-Time Monitoring

SCADA and PLC Systems

Predictive Maintenance

Data Analytics and AI

Environmental Compliance

Automation Panel

Power distribution units

We supply and assemble PDUs customized to meet diverse specifications based on your specific needs. Our standard PDU configurations begin at 100A and come in both single-phase and three-phase models. All units are switchable and are pre-wired to terminals housed in a dedicated compartment. We also provide:

  • Glazed doors for MCB distribution compartments upon request

  • Separate chambers for terminal connections

  • Pre-punched gland plates

  • Adjustable plinths with tile lip supports

  • Optional monitoring for each individual circuit

automation-components

Tabadul Global Tech. Works LLC is an officially authorized distributor and system integrator for leading brands, supplying industrial parts and multiple components of electrical spare parts across the EMEA region

Distribution, Assembly and Integration

Industrial Pump Staion

Process Control Automation

This type of automation involves the use of control systems like Programmable Logic Controllers (PLCs) and Supervisory Control and Data Acquisition (SCADA) systems to regulate processes within a water treatment plant.

  • Applications: Process control is used for chemical dosing, filtration, sedimentation, and aeration. It ensures that each stage operates optimally and within set parameters.

  • Example: SCADA systems manage the real-time flow of water, controlling pumps and valves to maintain consistent pressure and adjust chemical additions as needed.

Energy

Energy Management and Optimization Automation

This type of automation focuses on managing and reducing energy consumption across water treatment facilities.

  • Applications: Commonly applied in high-energy-consuming processes like aeration and pumping. Energy management systems optimize energy usage by adjusting process timings and load distribution.

  • Example: An energy management system adjusts the operating schedules of pumps and aerators based on peak demand times, lowering energy costs and reducing the plant’s environmental footprint.

mainenance

Predictive Maintenance and Asset Management Automation

  • Predictive maintenance automation uses data analytics, AI, and machine learning to predict equipment wear and failure based on operating conditions and historical data.

  • Applications: Preventive maintenance is crucial for pumps, motors, filters, and other mechanical components in water treatment facilities.

  • Example: An AI-powered predictive maintenance system analyzes data from equipment sensors and schedules maintenance before a breakdown occurs, reducing downtime and repair costs.

quality

Monitoring and Quality Control Automation

  • Automated monitoring systems use sensors and analyzers to continuously assess water quality. They measure pH, turbidity, dissolved oxygen, and other critical parameters, feeding real-time data to control systems.

  • Applications: This type is essential for tracking water quality in drinking water and wastewater treatment plants to ensure compliance with health and environmental standards.

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