Abstract

Various Industrial sectors, such as pharmaceuticals, food processing, textiles, and power generation, generate a massive volume of Water for operation, which can be treated for reuse. Particularly, Pharmaceutical product manufacturing generates wastewater, which is defined as effluents containing diverse organic and inorganic contaminants originating from active ingredients, excipients, and process residues. These effluents can cause damage to the Environment and humankind if not adequately treated before use or release into the open air. To treat these waters, there are physical, chemical, and biological processes which are combinedly operated in an Effluent Treatment Plant (ETP. The Treated Water has many applications within the industry as recycled Water. Among multiple application scopes, this Study proposes an integrated, experimental approach to reuse treated wastewater for boiler feedwater and generator cooling system applications. The application is modeled using a Fuzzy Logic Design system of the Mamdani type to achieve precise, adaptive, and robust outcomes. The proposed methodology demonstrates the potential to reduce freshwater consumption, improve resource efficiency, and support sustainable industrial water management.

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