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This paper reviews the scientific and engineering contributions of Ivan Polshchikov, whose work integrates ecological principles, intelligent control, and industrial design into a unified framework for sustainable engineering. Through his monographs, patents, and journal articles, Polshchikov develops methodologies that transform environmental compliance from a cost factor into a driver of innovation and efficiency. His research on vortex-based emission treatment, electrochemical regeneration of process solutions, and AI-embedded hybrid information carriers demonstrates how physical systems can be enhanced with algorithmic intelligence to achieve both ecological and economic gains. The article highlights Polshchikov's interdisciplinary approach, connecting materials science, control systems, and industrial economics to create scalable, retrofit-friendly technologies for manufacturing and energy sectors. His patented solutions—such as cognitive data carriers and instant-response electrochemical systems - embody the concept of "hybridization," merging devices and intelligent algorithms to optimize performance in real time. In educational and professional contexts, Polshchikov's monographs serve as both research references and teaching materials, influencing curricula and professional training worldwide. His frameworks align closely with UN Sustainable Development Goals, particularly in promoting responsible production and climate action. The paper concludes that Polshchikov's work represents a model for 21st-century engineering—systemic, environmentally conscious, and economically resilient—linking academic rigor with industrial applicability.