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Treatment of printing industrial wastewater: application of acidification, coagulation and flocculation for dewatering

Gustav Simoni, Xinxin Chen, Morten Lykkegaard Christensen, Vittorio Boffa

2025Journal of Water Process Engineering11 citationsDOIOpen Access PDF

Abstract

Printing industrial wastewater (PIW) contains high levels of non-biodegradable organic compounds, particularly from surfactant-laden cleaning of ink cartridges. It presents a waste challenge due to its dark coloration and toxic content. Current treatments of PIW include coagulation and flocculation, which are suitable for high-solids-content waste, followed by advanced oxidation processes for polishing. This study investigates the application of acidification, coagulation and flocculation for dewatering PIW using lab-scale and pilot-scale setups, focusing on the efficiency of pH adjustment, ferric chloride (FeCl₃) coagulation, and biobased flocculants like cationic starch alongside a synthetic polymer. Acidification combined with cationic polyacrylamide or starch produced filter cakes with dry matter contents of up to 79 % w /w for 24 h consolidation, with a residual dye and aromatic compound reduction of over 99 %. FeCl₃ coagulation followed by flocculation is a cost-effective treatment for small-scale facilities, enhancing effluent quality, while producing a cake dry matter upwards of 55 % at 2 bar pressure. Implementing these approaches could reduce disposal costs significantly and enable water reuse, supporting sustainability in wastewater management for the printing industry. • Coagulation-flocculation removed >99.9 % dye and > 99.5 % aromatics from PIW. • Acidification produced a filter cake with up to 79 % dry matter content. • Biobased and synthetic flocculants showed comparable treatment performance. • FeCl₃ coagulation was cost-effective and enhanced effluent clarity for reuse.

Topics & Concepts

FlocculationDewateringCoagulationWaste managementWastewaterIndustrial wastewater treatmentPulp and paper industryEnvironmental scienceEnvironmental engineeringEngineeringMedicinePsychiatryGeotechnical engineeringCoagulation and Flocculation StudiesMinerals Flotation and Separation TechniquesEnvironmental remediation with nanomaterials
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