• Capacity to 3334 l/m (200m3/hr)
  • Head to 50 meters
  • PFA Lined
  • Longer life with patented front support
  • High temperatures of < 150c
  • Patented Heavy Duty Design
  • Reduced noise level

The AME Range of Magnetically Driven Chemical Pumps are designed to ISO2858 and ISO3661 standards assuring a quality built pump and ease of replacing inferior existing pumps. The AME range is built to cope with the harshest of operating conditions constructed from PFA and SSiC. The AME range has been designed to reduce bearing loads which reduce the noise level. The patented design smoothly converts fluid kinetic energy into pressure energy, resulting in a higher efficiency pump reducing your operating costs.

The AME Mag Drive range continues to operate at one of the most efficient points in our mag drive range. The AME range can perform up to 80% operating efficiency, reducing operating costs and energy consumption at peak levels.

High temperature resistance means the AME range can pump a wide variety of corrosive applications with ease up to < 150c this is because of the simple PFA lining which gives outstanding chemical resistance.

Using this static sealing instead of the traditional dynamic mechanical seal solves the problem of leakage, avoiding unnecessary clean up bills which may incur if there was a problem in the production line.

All of our pumps come with our No Obsolete Parts Policy, meaning if you have your Crest Pumps pump for 40 years, we will still be able to provide you with parts and an exact replacement to minimise disruption to your production line, later on.

With our magnetic drive pumps we offer as standard, 18 months warranty as an assurance to your business that the pump is of top quality.

The AME range is designed to balance radial force, reduce bearing load which also reduces the noise level ensuring a quieter, better working environment.

The AME range have a unique, patented, integrated 'V' shape front support that is integral to the metal casing which is then PFA lined. This improves the liquid flow to the impeller, increasing operational efficiency, reducing NPSHr and ensuring a long service life.