Unique internal geometry permits unobstructed passage of large particles and suspended solids, making these air-operated diaphragm pumps ideal for slurry transfer without clogging.
Industrial operations handling abrasive slurries, corrosive chemicals and solid-laden fluids require pumping equipment that withstands extreme conditions. The air-operated double diaphragm pumps (AODD) manufactured by Pumps 2000 deliver proven reliability in mining, chemical processing, marine and construction applications where conventional metallic pumps fail. These nonmetallic pumps combine proprietary materials with innovative valve designs to achieve dependable performance across extreme conditions.
Patented design elements across all Pumps 2000 AODD pumps reduce total ownership costs through these operational advantages:
Unique internal geometry permits unobstructed passage of large particles and suspended solids, making these air-operated diaphragm pumps ideal for slurry transfer without clogging.
Smooth pumping action processes delicate fluids gently while enabling reliable, stall-free performance even with varying viscosities and flow conditions.
Engineered valve design and dampened air exhaust reduce workplace noise pollution compared to traditional pneumatic pumps, improving operator comfort.
The series has fewer components than competing designs, making service and repairs faster, easier and less expensive.
Choosing the correct air diaphragm pump series requires an understanding and analysis of fluid chemistry, particle loading and environmental conditions. SC Industrial Sales brings application engineering expertise to every project, reviewing your transfer challenges to identify which materials and configurations will deliver lasting value. We help industrial buyers invest in pump specifications that meet the demands of their actual operations.
Connect with SC Industrial Sales to learn more about Pumps 2000. Contact us online and let our experts help you find the right air-operated double diaphragm pump for your application.