Litcius/Paper detail

Chemical Transformations and Papermaking Potential of Recycled Secondary Cellulose Fibers for Circular Sustainability

Corina-Iuliana Pătrăucean-Patrașcu, Dan-Alexandru Gavrilescu, Maria Gavrilescu

2025Applied Sciences7 citationsDOIOpen Access PDF

Abstract

The papermaking and recycling industries face increasing demands to improve efficiency, product quality, and environmental performance under conditions of water closure and high furnish variability. This study presents a comprehensive assessment of process control and management strategies for optimizing fines behavior, retention and fixation efficiency, de-inking performance, and ash balance in modern papermaking systems. The surface chemistry of fines was found to play a pivotal role in regulating charge distribution, additive demand, and drainage behavior, acting both as carriers and sinks for dissolved and colloidal substances. Results show that light, targeted refining enhances external fibrillation and produces beneficial fines that strengthen fiber bonding, while excessive refining generates detrimental fines and impairs drainage. Sequential retention programs involving polyamines, polyaluminum compounds, and microparticle systems significantly improve fines capture and drainage stability when operated under controlled pH and ionic strength. In recycling operations, optimized flotation conditions coupled with detackifiers and mineral additives such as talc effectively reduce micro-stickies formation and deposition risks. Ash management strategies based on partial purge and coordinated filler make-up maintain bonding, optical properties, and energy efficiency. Overall, the findings emphasize the need for an integrated wet-end management framework combining chemical, mechanical, and operational controls. Perspectives for future development include the application of biodegradable additives, nanocellulose-based reinforcements, and data-driven optimization tools to achieve sustainable, high-performance paper manufacturing.

Topics & Concepts

PapermakingWaste managementDeinkingEnvironmental sciencePulp (tooth)SustainabilityCellulose fiberAbrasion (mechanical)Process engineeringProcess (computing)ChemistryNanocellulosePulp and paper industryDrainageAdvanced Cellulose Research StudiesMaterial Properties and ProcessingLignin and Wood Chemistry
Chemical Transformations and Papermaking Potential of Recycled Secondary Cellulose Fibers for Circular Sustainability | Litcius