Want Reliability? MACROY Metering Pumps Are the Answer

Engineered for outstanding value and reliability, the MACROY metering pump series from Milton Roy provides an ideal solution for water treatment applications

This content is sponsored by Milton Roy. Sponsored content is authorized by the client and does not necessarily reflect the views of COLE Publishing. View our privacy policy.
Want Reliability? MACROY Metering Pumps Are the Answer
The MACROY series metering pump from Milton Roy is designed for outstanding reliability and value for applications up to 175 psi (12 bar).

Interested in Tanks?

Get Tanks articles, news and videos right in your inbox! Sign up now.

Tanks + Get Alerts

The MACROY series metering pump is designed for outstanding reliability and value for applications up to 175 psi (12 bar). Water treatment chemicals, process additives, acids, out-gassing fluids, slurries and many more applications are all handled with ease by this robust metering pump design. The drive incorporates a variable eccentric design, which ensures smooth output and reduces system shock. The mechanically actuated diaphragm reduces the possibility of hydraulic oil contamination of process liquid, which makes this an ideal pump for water treatment applications. DC variable speed drives are available for external control and automation.

About Milton Roy
Since the invention of the metering pump by Milton Roy in 1936, and still today as a global leader of highly engineered products and equipment, Milton Roy continues to respond and anticipate changes in the industry to meet and exceed the expectations of our customers.

Headquartered in Ivyland, Pennsylvania — with locations in the United States, France, China, Singapore and India — Milton Roy, has expanded its initial product offering of metering pumps to include fluid control and odorization equipment in various industries including water treatment, wastewater, oil and gas, and photovoltaic markets. For more information, visit www.miltonroy.com.



Discussion

Comments on this site are submitted by users and are not endorsed by nor do they reflect the views or opinions of COLE Publishing, Inc. Comments are moderated before being posted.