In recent years, there has been a surge of interest in the development of advanced treatments aimed at controlling, treating, or remediating various aqueous matrices. These novel solutions hold tremendous po- tential, but their successful implementation across different cases and varieties of effluents is still a significant challenge. While their focus has traditionally been on treating conventional matrices like municipal wastewater or drinking water, our attention must also be directed to- ward non-conventional effluents/water sources. These matrices, including industrial waters, highly saline/brackish waters, and pro-duced water, demand proper treatment to remediate their contamina- tion or enhance their quality at the source of generation.
In recent years, there has been a surge of interest in the development of advanced treatments aimed at controlling, treating, or remediating various aqueous matrices. These novel solutions hold tremendous po- tential, but their successful implementation across different cases and varieties of effluents is still a significant challenge. While their focus has traditionally been on treating conventional matrices like municipal wastewater or drinking water, our attention must also be directed to- ward non-conventional effluents/water sources. These matrices, including industrial waters, highly saline/brackish waters, and pro-duced water, demand proper treatment to remediate their contamina- tion or enhance their quality at the source of generation. Read More
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