Pulp & Paper
Rubber Duckbill Check Valves
Our Pulp & Paper Rubber Duckbill Check Valves can be used for effluent discharge, submerged outfall difusion for effluent diffusion, and the control of groundwater to prevent flooding from wood chips creating backflow. Manufactured in standard and custom sizes, you can trust our team to deliver the right product for your specific application.
Pulp & Paper Rubber Duckbill Check Valves
Slip-On Series Rubber Duckbill Check Valve – Series CPO
The Series CPO Slip-On Check Valve is designed to be efficient, quiet and tough. It requires no external power sources, thereby reducing operation costs. The valve’s simple design means there are no moving mechanical parts to break down or jam, reducing maintenance costs.
Flanged Series Rubber Duckbill Check Valve – Series CPF
The Series CPF Flanged Check Valve is designed to be efficient, quiet and tough. It requires no external power sources, thereby reducing operating costs. The simple design means there are no moving mechanical parts to break down or jam, reducing maintenance costs.
Jacket Series Rubber Duckbill Check Valve – Series CPJ
The Series CPJ Jacket Check Valve is designed to be efficient, quiet and tough. It requires no external power sources, thereby reducing operation costs. The valve’s simple design means there are no moving mechanical parts to break down or jam, reducing maintenance costs.
In-Line Flanged Series Rubber Duckbill Check Valve – Series CPI
The In-Line Flanged Series Check Valve – Series CPI is designed to be efficient, quiet and tough. It requires no external power sources, thereby reducing operation costs. The valve’s simple design means there are no moving mechanical parts to break down or jam reducing maintenance costs.
In-line Rubber Duckbill Check Valve – Series CPI-IN
Designed to be mounted inside a pipe, the CPI-IN Check Valve easily handles corrosive or abrasive materials such as raw sewage, sludge or slurries. Their flexible design allows solids to pass through unhindered and can even surround solids trapped in the valve.