Industrial water supply: Centrally monitor and control your system

Improve your industrial water supply with a fully integrated solution

Whether your challenge is with pressure boosting, level control, liquid transport or filtration, intelligent pumps from Grundfos can help you build a fully integrated, fully optimised water supply system. Grundfos iSOLUTIONS help you maintain and optimise your entire liquid infrastructure – and they can connect your water supply system to your overall process, helping you monitor and control a wide range of parameters.

With Grundfos iSOLUTIONS you can:

  • Achieve a more robust, efficient liquid infrastructure
  • Achieve ultimate system efficiency
  • Eliminate unexpected downtime
  • Meet increasingly stringent regulations for water reuse
  • Cut labour and maintenance costs
  • Have a complete overview when expansion or renovation of the water infrastructure is required

Expertly tailored to your industrial use of water

When you choose Grundfos iSOLUTIONS, our application experts will work with you to tailor your pump systems to the precise requirements of your water supply system and your overall process. We’ll ensure your pump system connects directly to your overall process control and that it measures all the process parameters you need. And you get a single point of contact for the design, installation and maintenance of your system. 

Get 10% extra energy savings out of the box with IE5 motors

Optimise your intelligent industrial water supply system with one of the world’s most efficient motors, the MGE with IE5 certification. They offer 10% energy savings and up to 25% reduction in payback time in controlled E-pumps compared to IE3-certified solutions.

Do you want to experience the benefits of extreme energy efficiency and outstanding pump performance? 

Find the best energy efficient pump fast

Calculating energy consumption can be time consuming but here you can find the most efficient pump easily. Click here to quickly and easily calculate, compare and evaluate pumps based on life-cycle costs.