Home Storage & Handling Conveying Systems The E-finity pneumatic conveying system

The E-finity pneumatic conveying system

The E-finity pneumatic conveying system

Schenck Process E-finity is a patented continuous dense phase convey system for fragile materials.

Precise pressure monitoring and airflow corrections allow the system to operate efficiently under all conditions, while gently inducing materials through the convey line in slug form. E-finity is ideally suited for granular and pelleted materials, and has proven itself on many pet food industry projects.   

Unique E-finity air controls can employ a single air source to operate 2-3 different systems simultaneously. The result is a significant cost savings in both equipment and installation, with continued savings in operation and maintenance moving forward.

Schenck Process’ ability to design, size, sell, fabricate, and integrate other OEM processes as well as installing and providing ongoing support delivers full control.  As a primary equipment manufacturer, Schenck Process manages production schedules for faster lead times on highly engineered, custom-built systems. The end result is a predictable, efficient, and effective material handling process.  

Contact Schenck Process to schedule a full-scale test to quantify the energy requirements and degradation results for your specific products.  

Operating for over 130 years, Schenck Process has engineered cutting-edge technologies and solutions across the bulk material handling spectrum, delivering unmatched precision and accuracy for dry powder pneumatic conveying, mixing, blending, milling, sifting, screening, weighing and feeding.  Additionally, the group provides highly efficient air filtration systems for dust collection applications.

Through its integration of the Kemutec, Mac Process, AccuRate, Raymond Bartlett Snow and Stock Equipment brands, Schenck Process delivers a unified process solution for customers in every corner of the world.

For more information on Schenck Process visit their website, HERE


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