In recent years, many countries have been confronted with an extended period of drought, necessitating innovative water supply solutions for both human consumption and agricultural irrigation.In response, wastewater treatment plants (WWTPs) emerged as pivotal agents in recycling, catering to needs environmental considerations.These facilitate the transformation into potable or irrigation-ready water.Amidst array WWTP designs, "Continuous-Station" holds a distinctive position, featuring monolithic steel-structure meticulously crafted from either conventional stainless-steel.Presently, prevalent approach involves application anti-corrosion paint protect this structure corrosive effects aggressive substances present wastewater.However, strategy is being exploredthe incorporation tungsten, anti-corrosive element, stainless-steel alloy.This integration shows promising potential enhance resilience against relentless degradation forces within wastewater, simultaneously bolstering mechanical properties steel.This research paper exclusively focuses on analyzing, analytically, hydrostatic bending performance structural components infused nano-tungsten-particles.The range spans baseline 0%, representing steel without any infusion, optimal threshold 30% relative overall volume matrix.The elastic-properties composite steeltungsten alloy are characterized using Mori-Tanaka's homogenization model.The WWPT simplified plates analyzed advanced mathematical model based refined plate theory.The outcomes underscore notable enhancement flexural strength by augmenting fraction tungsten nanoparticles matrix.

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