DESAL RESEARCH GROUP

Sustainable technologies for a water-secure future

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KEY VALUES

Committed to excellence

We aim to be at the forefront of global efforts to contribute to a water-secure future. We envision a world where sustainable desalination technologies and water treatment solutions are pivotal in providing clean and safe water to communities and fostering economic growth. Through continuous innovation and collaboration, we aspire to set new standards for excellence in the field, leaving a long-lasting effect on the well-being of societies and the health of our planet.

About
DESAL team at the lab
RESEARCH & TECHNOLOGY

Driven by innovation, recognized by impact

The DESAL Research Group pioneers advancements in desalination and wastewater treatment, prioritizing excellence, innovation, and sustainability. Our focus on cutting-edge research and efficiency aims to address global water challenges and support sustainable development goals.

NEWS & UPDATES 

Discover the latest breakthroughs from our team

15 February, 2026

DESAL summer intern Imran Alturkistani wins national awards at Ibdaa Science and Engineering Fair

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02 February, 2026

New DESAL research published in Nature Communications advances energy-efficient desalination

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28 January, 2026

DESAL and ACWA Power advance AI-based research for early membrane fouling detection

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ADVANCING SCIENCE

Scientific Contributions

Through research papers, patents, and PhD dissertations, we push the boundaries of knowledge, driving innovation in desalination and water treatment.

Electrochemical treatment of chemical mechanical polishing wastewater: removal of fluoride — sludge characteristics — operating cost

by Noreddine Ghaffour
DOI: https://doi.org/10.1016/j.desal.2007.01.191

Abstract

The aim of this paper is to propose an efficient and low-co st treatment of chemical mechanical polishing
wastewater process based on electroco agulation with iron bipolar electrodes. The performance of a pilot scale
electrochemical reactor equipped with iron bipolar electrodes and an anode active area surface of about 170 cm2
was studied. In addition, sludge settling after electrocoagulation were characterized.
The pilot study yield promising results, suggesting that further in-depth development study is worth to be
considered in a future work.

Keywords

Electrocoagulation CMP Wastewater Bipolar electrodes Lime

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Be part of our journey towards cleaner, safer water, reduced environmental impact, and economic growth. Whether you're a researcher, industry expert, or passionate advocate, let's collaborate to set new standards in desalination and wastewater treatment.