High-G-Combi Line: ECOFARIO’s Breakthrough in Reject Optimization

Innovative double-stage design ensures efficient separation of contaminants, reduced fiber losses and outstanding return on investment

With its High-G-Combi Line, ECOFARIO introduces a new generation of hydrocyclone technology for the paper industry. Designed specifically for the treatment of fine rejects, the system enables precise and efficient separation of light and heavy contaminants from existing reject streams, resulting in a drastic reduction of fiber losses and a significantly improved return on investment.

The High-G-Combi Line is based on an innovative double two-stage process that ensures high selectivity, minimal fiber thickening and excellent recovery rates. Stable flow patterns and reduced clogging susceptibility allow the system to achieve maximum efficiency with extremely low specific energy consumption. Compared to conventional hydrocyclones, the solution sets new benchmarks in wear resistance and operational reliability.

A key advantage of the High-G-Combi Line is its flexibility. The system can be integrated into greenfield projects, retrofitted into existing installations or added as an extension to optimize current setups. Its modular plug-and-play design enables easy installation and seamless adaptation to changing raw materials or paper grades, ensuring consistently high performance under variable operating conditions.

The technology also supports sustainable production. Long component lifetimes minimize maintenance and service costs, while the optimized CO₂ footprint contributes to resource-efficient paper manufacturing. Individually adjustable flow and reject rates allow mills to maximize fiber yield while reducing energy and material consumption, delivering both economic and ecological benefits.

About ECOFARIO GmbH

ECOFARIO GmbH is a German technology provider specializing in next-generation fluid filtration solutions. Headquartered in Greifenberg, Germany, ECOFARIO develops and delivers advanced separation systems that combine maximum efficiency with minimized environmental impact.