Chemical Processes Using Non-Traditional Energetic Technologies: Innovations and Applications

Abstract

In the field of chemical processes, unconventional energetic technologies have emerged as game-changing solutions, providing sustainable substitutes for conventional energy sources and techniques. The most recent developments in unconventional energy technologies are examined in this review article along with how they are used in diverse chemical processes. These technologies demonstrate increased efficiency, decreased environmental impact, innovative reaction pathways in everything from plasma-assisted reactions to photochemical processes, microwave heating, ultrasound-driven reactions. These techniques provide precise control over reaction conditions and the development of novel products by utilising distinct energy sources and mechanisms. This article examines non-conventional energy technologies in depth, shedding light on their role in influencing the future of the chemical industries through recent advancements and projected future directions. The incorporation of these technologies into common chemical processes holds the possibility of not only optimising manufacturing processes but also reducing waste generation and energy consumption as the global community increases its attention on sustainability and resource efficiency. This in-depth analysis of unconventional energy technologies highlights their enormous potential to revolutionise chemical processes and move the sector towards a future that is both environmentally conscious and technologically advanced.