An integrated approach for the HCl and metals recovery from waste pickling solutions: pilot plant and design operations

[Display omitted] •Separation of HCl, Fe and Zn from pickling solutions via membrane processes•Demonstrator plant operation in real industrial environment•Closed-loop process increases galvanizing industry environmental sustainability•Continuous and fully automated operation with artificial and real...

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Bibliographic Details
Published inChemical engineering research & design Vol. 168; pp. 383 - 396
Main Authors Gueccia, Rosa, Winter, Daniel, Randazzo, Serena, Cipollina, Andrea, Koschikowski, Joachim, Micale, Giorgio D.M.
Format Journal Article
LanguageEnglish
Published Rugby Elsevier Ltd 01.04.2021
Elsevier Science Ltd
Subjects
Acid recovery
Circular economy
Demonstrator
Dialysis
Distillation
Economic impact
Hot dip galvanizing
Hot dipping
Impact analysis
Industrial wastewater
Machine learning
Materials recovery
Membrane technologies
Membranes
Monitoring systems
Pickling
Real time
Regeneration
Salting
Sensors
Studies
Tomography
Vapor pressure
Waste management
Water vapor
Industrial wastewater
Acid recovery
Circular economy
Membrane technologies
Demonstrator
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Summary:[Display omitted] •Separation of HCl, Fe and Zn from pickling solutions via membrane processes•Demonstrator plant operation in real industrial environment•Closed-loop process increases galvanizing industry environmental sustainability•Continuous and fully automated operation with artificial and real solutions Continuous regeneration of industrial pickling solutions and recovery of valuable materials are implemented in a pilot-scale plant including diffusion dialysis (DD), where HCl is recovered, membrane distillation (MD), where HCl is concentrated, and reactive precipitation (CSTR), where metal ions are recovered in different forms. The integration of the three processes allows to minimize waste streams generation and to accomplish a closed-loop process, thus increasing the environmental sustainability and economic impact of the galvanizing industry. Process reliability was proved through the operation of a demonstrator in the real industrial environment of the Tecnozinco SrL hot-dip galvanizing plant (Carini, Italy), assessing the actual performance in fully reducing spent pickling solution disposal and recovering useful compounds. Tests were conducted firstly with synthetic solutions and then with real waste liquors from the pickling plant. A high acid recovery (80%) can be achieved in the diffusion dialysis unit and quantitative metals separation was accomplished, with iron hydroxide produced at 99% purity. The membrane distillation performance suffers when metal salts are present in large quantities, due to the “salting out” effect, resulting in reduced water vapor pressure, though the use of available low grade waste heat allows energy-sustainable operation of the MD.
ISSN:0263-8762
1744-3563
DOI:10.1016/j.cherd.2021.02.016