Application of Seeded Membrane Distillation Crystallization for Zero Liquid Discharge

Flatscher, Stefanie; Hlawitschka, Mark W.; Samhaber, Wolfgang M.; Hell, Florian; Lahnsteiner, Josef

doi:10.1002/cite.202300084

Chemie Ingenieur Technik

2023

DOI: 10.1002/cite.202300084

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Application of Seeded Membrane Distillation Crystallization for Zero Liquid Discharge

Stefanie Flatscher,

Mark W. Hlawitschka,

Wolfgang M. Samhaber

et al.

Abstract: Zero liquid discharge (ZLD) is a crucial requirement in industrial operations concerned with water scarcity and environmental protection. This study investigates the feasibility of using membrane distillation combined with crystallization (MDC) as a potential solution for ZLD. High‐saline NaCl solutions were used to evaluate the performance of a seeded MDC system, which demonstrated excellent recovery rates for both water (over 95 %) and salt (over 95.5 %). The presence of seeding crystals in the MDC system wa… Show more

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Cited by 3 publications

References 57 publications

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An in-depth analysis of membrane distillation research (1990–2023): Exploring trends and future directions through bibliometric approach

Boubakri,

Elgharbi,

Bouguecha

et al. 2024

Journal of Environmental Management

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An in-depth analysis of membrane distillation research (1990–2023): Exploring trends and future directions through bibliometric approach

Boubakri,

Elgharbi,

Bouguecha

et al. 2024

Journal of Environmental Management

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Zero liquid discharge of desalination brine via innovative membrane distillation system coupled with a crystallizer

Alawad,

Shamet,

Lawal

et al. 2025

Results in Engineering

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Flowing Salt Solution Thin Film Vaporization and Heat Transfer Mechanisms: A Molecular Dynamics Study

Yuan,

Li,

Zhang

et al. 2024

Energies

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Geothermal energy offers a sustainable way, through heating a salt solution, to generate electricity and extract salt, minimizing environmental impact while supporting clean energy needs. The thermal behavior and vaporization mechanisms of flowing salt solution thin films are investigated in this study using molecular dynamics (MD) simulations. The research focuses on the evaporation dynamics of NaCl solutions at various temperatures (450 K and 550 K) and under different flow conditions, providing insights into the microstructural evolution and the role of ionic interactions. The simulations reveal critical aspects of evaporation, such as the formation and behavior of ion clusters, the impact of temperature on evaporation rates, and the effects of flow on heat transfer efficiency. Key findings include the observation that higher temperatures accelerate the evaporation process and promote ion clustering, while flow conditions enhance heat and mass transfer, leading to more efficient vaporization. These results contribute to a deeper understanding of the thermal dynamics in saline solutions, with implications for industrial processes such as desalination, crystallization, and thermal management.

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Application of Seeded Membrane Distillation Crystallization for Zero Liquid Discharge

Cited by 3 publications

References 57 publications

An in-depth analysis of membrane distillation research (1990–2023): Exploring trends and future directions through bibliometric approach

An in-depth analysis of membrane distillation research (1990–2023): Exploring trends and future directions through bibliometric approach

Zero liquid discharge of desalination brine via innovative membrane distillation system coupled with a crystallizer

Flowing Salt Solution Thin Film Vaporization and Heat Transfer Mechanisms: A Molecular Dynamics Study

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