Intensified processes refer to the enhancement of chemical and physical processes to achieve higher efficiency, productivity, and sustainability in various industrial applications. This research area focuses on developing innovative methods and technologies to optimize processes, reduce energy consumption, waste generation, and improve overall performance. Intensified processes typically involve the integration of multiple unit operations, such as mixing, reaction, separation, and purification, into a single system to streamline operations and minimize the use of resources. This approach often involves the use of advanced process designs, novel materials, catalysts, and automation technologies to achieve higher yields, selectivity, and overall process intensification. Research in intensified processes is aimed at addressing the growing challenges faced by industries in terms of cost, environmental impact, and regulatory compliance. By optimizing processes and maximizing resource utilization, intensified processes offer significant benefits in terms of productivity, sustainability, and overall competitiveness in the global market.