Research Impact & Highlights Details

Harnessing the Circular Economy: KFUPM's Innovative Brine Conversion

01 Sep 2024 @ 09:00 AM

Interdisciplinary Research Center for Membranes and Water Security,
September 2024
 

Researchers at the Interdisciplinary Research Center for Membranes & Water Security at KFUPM have developed a novel approach for desalination that promises to revolutionize the industry. This innovative approach addresses one of desalination's most pressing challenges: the disposal of brine, a highly concentrated saline by-product. Brine disposal is a significant environmental concern, as its discharge into oceans and other water bodies can severely impact marine ecosystems due to its high salinity and the presence of potentially harmful chemicals.

The KFUPM team has developed a cutting-edge solution that efficiently converts waste brine into valuable chemicals, specifically acids and bases, while suppressing chlorine evolution. This process not only mitigates the environmental impact of brine disposal, but also creates new revenue streams for desalination plants, offering both ecological and economic benefits.

Conventional brine disposal methods, such as discharging it back into the sea pose significant environmental risks. High salinity levels can disrupt marine life, lead to harmful algal blooms, and contaminate freshwater sources. Additionally, these methods are often expensive and regulated, increasing operational costs. KFUPM's solution involves an advanced electrochemical process that transforms waste brine into valuable chemicals. Specialized membranes and electrodes separate the brine into its constituent

converting sodium and chloride ions into sodium hydroxide (a base) and hydrochloric acid through electrolysis while suppressing side reactions. These chemicals have widespread industrial applications, including water treatment, chemical manufacturing, and food and beverage processes.

A significant advantage of this technology is its dual benefit of reducing environmental harm while generating economic value. By converting waste brine into commercially valuable products, desalination plants can offset operational costs and potentially earn a profit. This makes the desalination process more sustainable and economically viable, especially in regions where freshwater scarcity is a critical issue.

Moreover, this innovation can significantly reduce the carbon footprint of desalination plants. Traditional production of sodium hydroxide and hydrochloric acid involves energy-intensive processes that contribute to greenhouse gas emissions. By utilizing waste brine as a raw material, the KFUPM process offers a greener alternative that aligns with global efforts to combat climate change and promote sustainable industrial practices.

Potential applications of this technology extend beyond the desalination industry, offering a sustainable solution for managing and repurposing saline waste streams in various industrial processes.