Aindpro supports sustainable water usage with its solutions through automation, measurement, and analysis solutions, electrification, and digitization throughout the entire water treatment process. This includes solutions that help efficiently turn surface water into drinking water, automation technologies for safe wastewater treatment, and systems.
Many of these processes, however, are energy-intensive. Increasing energy efficiency and productivity enhances overall sustainability of activities and helps reduce operational costs, making drinking water more affordable and accessible.
Maximizing the efficiency of water treatment plants is a crucial aspect of water management. Aindpro helps optimize the performance of water treatment plants through process automation and control systems. The ABB Ability™ System 800xA distributed control system can integrate all plant control systems, providing engineers with a broad view and precise control over complex applications from a central control center.
By providing existing knowledge, Aindpro helps users reduce energy costs and increase productivity in both new and existing processes. Another tool for addressing water management challenges is the Aindpro Water SCADA – an automation platform that provides flexibility and increases scalability for remote control of distributed water networks. Aindpro solutions also help reduce energy consumption in wastewater treatment.
Aindpro provides continuous water analyzers that help manage water quality and ensure compliance with water quality standards throughout the water cycle, from sourcing and treatment to distribution and discharge.
Optimization of water quality and chemicals is an advanced solution with simulation capabilities. It helps managers and process engineers achieve optimized control over water quality and chemical dosing while monitoring energy usage and environmental impact. Its KPI calculations, forecast analysis, and dynamic modeling are based on DHI WEST software, specializing in physical, biological, and chemical processes.
The deployment of these powerful tools for analysis, simulations, “what-if” scenarios, and model calibration has been proven to bring up to 10% savings in water-related chemical costs. All of this helps achieve or improve goals related to total nitrogen (TN), ammonia and nitrate, total phosphorus (TP), and biochemical oxygen demand (BOD).
