Research Keyword: membrane separation

A Model-Driven Approach to Assessing the Fouling Mechanism in the Crossflow Filtration of Laccase Extract from Pleurotus ostreatus 202

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Scientists developed a method to purify laccase enzymes from oyster mushrooms using membrane filtration technology. They compared mathematical models to predict how membranes get clogged during filtration and found that using crossflow (tangential) filtration significantly reduces harmful clogging. Understanding these clogging patterns helps improve enzyme purification for use in industrial applications like textile processing and bioremediation.

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Novel Alginate-, Cellulose- and Starch-Based Membrane Materials for the Separation of Synthetic Dyes and Metal Ions from Aqueous Solutions and Suspensions—A Review

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This review examines new types of environmentally-friendly membranes made from natural plant materials like alginate and cellulose that can effectively remove harmful dyes and heavy metals from polluted water. These sustainable membranes can reject over 95% of contaminants while producing minimal waste, offering a greener alternative to traditional synthetic membrane technology. The materials are biodegradable and can be reused multiple times, making them economically and environmentally advantageous for water treatment applications.

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Recent Advances in Functional Polymer Materials for Water Treatment

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Scientists are developing new plastic-like materials that can clean polluted water more effectively and sustainably. These functional polymers can trap heavy metals, remove unwanted dyes, and even help treat wastewater from oil drilling. The research shows these materials work much better than traditional methods, and they can be recycled multiple times, making them environmentally friendly solutions to global water pollution problems.

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