Cost-performance trade-off analysis of physicochemical phosphorus removal systems for wastewater treatment: A bi-objective optimization approach

Artículo

Autoría

Caro, Florencia Cecilia ; ROSSIT, DIEGO GABRIEL ; Santiviago, Claudia ; Ferreira, Jimena ; Nesmachnow, Sergio

Fecha

2025

Editorial y Lugar de Edición

AMER INST MATHEMATICAL SCIENCES

Revista

MATHEMATICAL BIOSCIENCES AND ENGINEERING, vol. 23 (pp. 124-147) - ISSN 1547-1063
AMER INST MATHEMATICAL SCIENCES

ISSN

1547-1063

Resumen Información suministrada por el agente en SIGEVA

In an increasingly competitive world, industries face growing pressure to improve efficiency while meeting strict environmental and social standards. Wastewater treatment plants (WWTPs) play a key role in reducing the environmental impact of water use across industrial, agricultural, and domestic activities. This study presents a bi-objective optimization framework to support chemical dosing decisions in physicochemical phosphorus removal (PPR) systems. Using an edible-oil WWTP as a case study,... In an increasingly competitive world, industries face growing pressure to improve efficiency while meeting strict environmental and social standards. Wastewater treatment plants (WWTPs) play a key role in reducing the environmental impact of water use across industrial, agricultural, and domestic activities. This study presents a bi-objective optimization framework to support chemical dosing decisions in physicochemical phosphorus removal (PPR) systems. Using an edible-oil WWTP as a case study, two common metal salts (aluminum sulfate and ferric chloride) are compared, considering operational cost and phosphorus removal efficiency as conflicting objectives. Polynomial surrogate models enabled the integration of BioWin PPR models into the optimization problem, and the weighted sum and ?-constraint methods were used to estimate the Pareto fronts, yielding complementary solutions. The proposed framework provides a practical decision-support tool for WWTPs by revealing cost–performance trade-offs. Results show that costs escalate disproportionately: reducing effluent P from 3.0 to 1.0 mg?P/L increased costs by 114% with aluminum sulfate and 355% with ferric chloride. The framework is adaptable to different PPR systems and influent conditions.

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Palabras Clave

CHEMICAL COSTSPHYSICOCHEMICAL PHOSPHORUS REMOVALINDUSTRY 5.0BI-OBJECTIVE OPTIMIZATIONWASTEWATER TREATMENTCHEMICAL DOSING STRATEGIES

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http://hdl.handle.net/11336/277707