banner
News center
As the industry evolves, we are committed to staying ahead of the curve with our quality techniques.

Process and Control Today | Spotless Performance From Dirty Water Pump

Nov 01, 2024

01/11/2024 Landia UK Ltd

In Northern Lincolnshire, a Chopper Pump made by Landia has completed five years of continuous service at the main, 2MW biogas plant run by Singleton Birch, who for over two hundred years, have produced high quality lime products.

Working underground as part of an automated system for dirty run-off water, the Landia pump chops up maize and other particles that end up in the drainage; sending the recirculated liquid to the site’s lagoon, or back to the digesters as and when required.

“The Landia Chopper Pump does an excellent job,” said Danny Mason, Renewable Energy Supervisor at Singleton Birch, where the AD plant’s three 2800m3 digesters use a feedstock of maize, chicken litter and sugar beet.

He added: “The pump is very easy to maintain and has really helped us out with drainage on site, chopping up solids that would block up lesser quality pumps. Landia take care of the full servicing, and always ensure that there isn’t any downtime.”

Invented by Landia in 1950, the Chopper Pump is designed with an external knife system that continuously reduces solids.

In addition to this Landia unit at Singleton Birch, Landia has numerous Chopper Pumps installed at biogas plants as part of its digester mixing system. These include Scottish Water, Eco Verde Energy, and Republic Services in California.

Print this article

For more information, please contact:Landia UK LtdWaymills Industrial EstateWhitchurchShropshireSY13 1TTTel: +44 (0)1948 661200Email: [email protected]: https://www.landia.co.uk

Visit company profile page

Confidence grows in solutions for processing plant-based foodstuffs

Login or Register

Process and Control Today are not responsible for the content of submitted or externally produced articles and images. Click here to email us about any errors or omissions contained within this article.

For more information, please contact: Visit company profile page