Overview
PULSA Series® 7660: High-Performance Metering Pump for Demanding Applications
The PULSA Series® 7660 is a robust metering pump designed to meet the demands of the most challenging applications. It delivers up to 1700 gph (6435 lph) and handles pressures up to 3625 psi (250 bar), making it ideal for industries such as chemical processing, oil & gas, and wastewater treatment.
Key Features of the PULSA Series® 7660
High Flow and Pressure
The PULSA 7660 offers a flow rate of up to 1734 gph (6563 lph) and a pressure capacity of 3625 psi (250 bar). Consequently, it ensures precision even in the most challenging fluid metering tasks. Whether the application demands high flow or pressure, this pump excels in both.
Rugged and Durable Construction
Built for toughness, the pump features heavy-duty construction that withstands even the harshest operating conditions. As a result, it provides reliable performance over the long term, making it an excellent choice for industrial and hazardous environments.
Precision Metering with ±1% Accuracy
You can trust the PULSA 7660 to deliver precise fluid metering with an outstanding ±1% accuracy. This precision helps optimize overall system performance, reducing waste and enhancing efficiency in every application.
Versatile and Customizable Design
Thanks to its flat diaphragm or HYDRAtube® head design, the pump offers versatility to accommodate various applications. Additionally, it can be customized with a variety of wet-end materials, ensuring compatibility with different industries.
Proven Engineering Excellence
With over 70 years of engineering expertise, the pump benefits from extensive research and development. Consequently, it remains a reliable, high-performance solution in industries that require robust, long-lasting metering pumps.
Conclusion
In conclusion, the PULSA Series® 7660 is a high-performance, durable pump perfect for fluid metering in industries like oil & gas, chemical processing, and wastewater treatment. Its ±1% accuracy and ability to handle high pressures ensure dependable results in complex environments.