Zinc Recovery from a Water Supply by Reverse Osmosis Operated at Low Pressures: Looking for Sustainability in Water Treatment Advanced Processes

• Published in: Membranes (Basel) Vol. 14; no. 6; p. 131
• Main Authors: Alvizuri-Tintaya, Paola Andrea, d’Abzac, Paul, Lo-Iacono-Ferreira, Vanesa G, Torregrosa-López, Juan Ignacio, Lora-García, Jaime
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.06.2024; MDPI
• Subjects: added value; Bolivia; Chemical precipitation; Circular economy; Clean technology; Consumption; Drinking water; Ecosystem recovery; Ecosystems; Energy conservation; Energy costs; Environmental sustainability; EU directives; Green technology; Health aspects; Health risks; Heavy metals; Lagoons; Membranes; Metal concentrations; metal recovery; Metals; Natural resources; Operational problems; Resource recovery; Reverse osmosis; Spain; Sustainability; Sustainable development; Toxicity; wastewater; Water pollution; Water resources; Water shortages; Water supply; Water treatment; Zinc; Bolivia; Spain
• ISSN: 2077-0375; 2077-0375
• DOI: 10.3390/membranes14060131

Achieving sustainability in life involves increasing efforts to recover resources. This research proposes the recovery of Zn from the Milluni lagoons, an important water supply for Bolivia, where high concentrations of Zn have been identified that exceed permitted limits, exposing a risk to health and ecosystems. The application of reverse osmosis (RO), operated with low pressures, is proposed as a first stage for the concentration of Zn and subsequent recovery of this metal through chemical precipitation. The aim was to maintain the separation efficiency of the RO operated at low pressures without presenting operational problems. As a result, 98.83% metal concentration was achieved with a laboratory-scale pilot system. The above means an important potential for large-scale Zn concentration, apart from orienting the RO toward sustainability by working with low pressures that reduce energy costs during its operation. This study can be used as a valuable reference for the advancement of sustainable technologies in the field of water treatment that simultaneously allow the recovery of resources to promote a circular economy. Finally, this study exposes an alternative for regions with heavy metal water contamination in Bolivia and worldwide.