Removal of Residual Chlorine from Stormwater Using Low-Cost Adsorbents and Phytoremediation

Valentukeviciene, Marina; Andriulaityte, Ieva; Karczmarczyk, Agnieszka; Zurauskiene, Ramune

doi:10.3390/environments11050101

Environments

2024

DOI: 10.3390/environments11050101

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Removal of Residual Chlorine from Stormwater Using Low-Cost Adsorbents and Phytoremediation

Marina Valentukeviciene,

Ieva Andriulaityte,

Agnieszka Karczmarczyk

et al.

Abstract: In recent decades, the pollution of water with micropollutants has become an increasing environmental concern. Since 2019, increased stormwater pollution from chlorine-based disinfectants has been recorded due to the COVID-19 pandemic. Runoff from disinfected areas and the residual chlorine present in stormwater are transported to surface water bodies, posing a risk to aquatic flora and fauna. The objectives of this study were (1) to evaluate the efficiency of different low-cost and recyclable filter materials… Show more

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Cited by 4 publications

References 42 publications

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Preparation of CuO/Activated Carbon Fiber Filter for Adsorption/Catalytic Degradation of Residual Chlorine in Drinking Water

Meng,

Mo,

et al. 2024

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Preparation of CuO/Activated Carbon Fiber Filter for Adsorption/Catalytic Degradation of Residual Chlorine in Drinking Water

Meng,

Mo,

et al. 2024

Catal Lett

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Application of neutral electrolyzed water enhanced with organic acids as an antibacterial activity for chicken breast preservation

Ali Noori,

Hashemi,

Noori

et al. 2024

J Food Sci Technol

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Influence of Aqueous Phase Salt and Oil Phase Surfactants and Viscosity on the Dynamic Interfacial Tension and Coalescence Timescales

Bachnak,

Narayan,

Moravec

et al. 2024

J. Phys. Chem. B

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Liquid−liquid separation is a critically important process in the treatment of emulsions that can occur in our environment, such as oily stormwater, shipboard bilgewater, or off-shore oil spill treatment. Effective filtration systems, including coalescing filters, are essential for mitigating these environmental pollutants. Achieving this requires a comprehensive understanding of liquid−liquid interface dynamics influenced by additives and surfactants. Furthermore, understanding the impact of surfactants on emulsion stability in saline environments is vital for optimizing filtration processes and ensuring the protection of marine and freshwater ecosystems. In this work, these effects are highlighted using measurements performed across a range of droplet size, surfactant concentration, viscosity ratios, and saline presence. Dynamic IFT measurements are conducted using the pendant drop method for water in light mineral oil, with and without salt in the water phase. The effect of salt addition is also highlighted by using microfluidic coalescence experiments, in which it was found that the addition of salt increases the dimensionless drainage time below the critical micelle concentration. The second focus of this work is to study the effect of bulk phase viscosity on the stability. Dynamic IFT measurements are performed at both millimeter and micrometer scales using pendant drop experiments and microfluidic tensiometry, respectively, involving light and heavy mineral oils with varying SPAN80 surfactant concentrations. The surfactant diffusivity and interfacial adsorption and desorption rates are then extracted by fitting a surfactant diffusion and equation of state equations to the dynamic IFT measurements. The results of the IFT decay, surfactant diffusivity, and adsorption rates are compared at two different viscosity ratios. This study also compares the times required for IFT relaxation with the film drainage times in water-in-oil systems. The comparison aids in comprehending the impact of competing timescales during film drainage. The findings presented in this paper offer valuable insights into the design and optimization of liquid−liquid filtration systems, especially when operating under challenging environmental conditions, such as in saline environments. The principles explored here can be applied to improving industrial water treatment and in the design of advanced filtration technologies for chemical and petrochemical industries, particularly those involving flow, contributing to more sustainable and efficient practices in handling emulsified waste streams.

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Removal of Residual Chlorine from Stormwater Using Low-Cost Adsorbents and Phytoremediation

Cited by 4 publications

References 42 publications

Preparation of CuO/Activated Carbon Fiber Filter for Adsorption/Catalytic Degradation of Residual Chlorine in Drinking Water

Preparation of CuO/Activated Carbon Fiber Filter for Adsorption/Catalytic Degradation of Residual Chlorine in Drinking Water

Application of neutral electrolyzed water enhanced with organic acids as an antibacterial activity for chicken breast preservation

Influence of Aqueous Phase Salt and Oil Phase Surfactants and Viscosity on the Dynamic Interfacial Tension and Coalescence Timescales

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