OneWatt, an industrial technology developer backed by InnoEnergy, Europe’s sustainable energy innovation engine, has launched a unique motor monitoring system for the onshore and offshore wind, hydro-power and industrial sectors.
EARS (Embedded Acoustic Recognition Sensors) is a universal, non-intrusive motor monitoring system, which uses acoustic data to predict equipment motor faults, enabling companies to reduce downtime, costs and increase efficiency.
The new technology’s machine learning algorithms offer wind and hydro-power companies the ability to understand not only when a fault will occur but how and where the fault will occure, which then optimises maintenance schedules and reduces the energy consumption of equipment.
The non-invasive industrial motor monitoring system has been developed with the aim of reducing downtime and increasing efficiency for the renewables sector.
OneWatt joined InnoEnergy’s Highway in 2018 to accelerate the commercialisation of its motor monitoring system technology.
How does the Highway programme help developers?
The Highway programme supports early stage start-ups in their go-to market phase. InnoEnergy is providing OneWatt with assistance in many areas, including:
- Financial assistance
- Technical product development
- Target market definition and
- Access to its network of more than 385 project partners.
Paolo Samontanez, CTO of OneWatt, said: “EARS literally listens to motors to prevent equipment failure. Not only does this reduce downtime but it helps companies optimise their maintenance schedules – decreasing costs. This technology has the potential to make a real difference to how the renewables sector operates and we’re currently piloting the system with a number of key clients.”
Jacob Ruiter, CEO of InnoEnergy Benelux, concludes: “By predicting maintenance, EARS enables wind and hydro-power turbines to run more efficiently. And there’s an added benefit here – it actually reduces the energy consumption of equipment, contributing to Europe’s goal of lowering carbon dioxide emissions. Imagine if every industrial plant in Europe installed these sensors, those cumulative efforts could have a huge environmental impact.”