Danfoss drives have evolved beyond simply turning shafts. Our latest generation integrates advanced sensor technology and onboard computing power, transforming the drive into an intelligent device for the wastewater and water community. This intelligence empowers operators to proactively reduce breakdowns, minimize downtime, and achieve new levels of cybersecurity and efficiency in water and wastewater systems.
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In water and wastewater systems, implementing a condition monitoring system brings numerous benefits by preventing problems before they occur, resulting in less money spent, fewer breakdowns, cybersecurity, and optimized overall performance.
The use of data, including machine learning, provides a range of benefits along with improving network performance. It ensures real-time supervision, predictive maintenance, and optimization of systems - all helping to monitor and reduce risk in water and wastewater facilities.
Use of edge-based supervision enables cloud-free cybersecurity on site, without compromising on data. This smart, digital technology embedded in the drive offers real-time supervision of pumps and motors, with good cybersecurity for cyber resilience. This functionality enables proactive measures to prevent failures, provide real-time alerts, and deliver performance improvement insights. It’s good to know that risk reduction by eliminating cloud exposure to cyber incidents is possible, while still maintaining data-based preventive maintenance for efficient, safe water and wastewater management.
Condition monitoring enables efficient system operation by leveraging cloud-free artificial intelligence to make sense of real-time data. Smart drives not only regulate motors, but also act as sensors and intelligent controllers, providing real-time insights and analytics to help optimize overall water line performance and reduce maintenance needs in management systems for both wastewater treatment and drinking water supply. When cybersecurity is a priority, you can operate cloud-free.
Condition monitoring allows for proactive maintenance measures, which prevent problems - including cybersecurity problems - occurring, rather than solving them reactively, after the event. This proactive approach helps to save costs and losses for a range of critical maintenance challenges in water and wastewater treatment systems: reducing water loss, extending asset lifetime, and meeting cybersecurity and budget constraints.
By using a condition monitoring system, drinking water and wastewater utilities can spend less money, have fewer breakdowns, and improve overall performance including cybersecurity. The implementation of condition monitoring reduces the number of incidents that may result in costly machine downtime and the need to replace or repair equipment.
Experience the benefits of condition monitoring, including risk reduction, cost savings, efficient system operation, real-time supervision, and improved cybersecurity. Monitor and operate your drinking water and wastewater systems much more efficiently with machine learning, without compromising on cybersecurity. Leveraging the latest technologies provides many benefits, from predicting performance issues to optimizing overall operation.
The smart drive can detect problems way before they are visible to the human eye or ear and give the operator an early warning. That way, we can prevent problems with flooding and breakdowns in water and wastewater management from happening, rather than solving them when they do.
The VSD establishes a baseline for power consumption and vibration based on the pump speed over a defined period of operation. Once the baseline is set, the VSD can identify anomalies with reporting in real-time.
In addition to monitoring power consumption patterns, the VSD also monitors motor windings. This comprehensive condition monitoring feature helps optimize water systems, leading to leak reduction, cost savings, and reduced water and energy consumption.
As well as condition monitoring and reporting, the VSD offers other digital functions that enhance operational efficiency, reduce water usage, and reduce greenhouse gas emissions. For instance, this device includes a standard integrated deragging function that prevents pump clogging.
A digital strategy for decarbonization has shown promising results in the wastewater industry, driving ambitions to reduce CO2/GHG emissions. Control with intelligent VSD technology is a critical element.