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The study of the effects of ultrasound waves on a chemical reaction is known as sonochemistry. Ultrasound radiation (between 20 kHz and 2 MHz) is used to drive chemical and physical processes in solution. When ultrasound waves pass through liquid, they generate tiny bubbles that expand and then collapse quickly. This process releases energy, which can speed up the chemical reactions. Sonochemistry is considered a sustainable technology because it often utilizes less energy, requires fewer toxic chemicals, and generates less waste compared to traditional chemical processes.
Ultrasound waves are utilized in various processes including synthesis, crystallization, and purifications and find applications in various sectors like pharmaceuticals, material sciences, agriculture, food processing, and environment science.
This book is focused on applications of sonochemistry. It begins by explaining the basics of the technology and moves on to describing applications in the fields of chemistry, chemical engineering, and environmental engineering, and discussed applications currently being developed and future outlook.
Table des matières
Sonochemistry Science and Engineering: Understanding the Concepts.- Applications in Chemistry.- Applications in Chemical Engineering.- Applications in Environmental Engineering.- Future Outlook.
A propos de l'auteur
Navnath Hatvate is an assistant professor at the Institute of Chemical Technology, Mumbai, Marathwada Campus, Jalna. He holds a Master of Pharmacy and a PhD from the Department of Pharmaceutical Sciences and Technology at the Institute of Chemical Technology, Mumbai. His areas of expertise and research interests include the development of new chemical entities (NCE) and their analogues, modifications of excipients and their applications in drug delivery, the use of AI and ML in drug discovery and drug delivery, process chemistry of APIs and intermediates, and total synthesis of natural products, bio-active compounds, application of novel technologies in organic synthesis.
Hemantkumar N. Akolkar, PhD, is currently working as an Associate Professor in the Department of Chemistry at Rayat Shikshan Sanstha’s Abasaheb Marathe Arts and New Commerce Science College, Maharashtra, India. He is an acclaimed academician and researcher who has worked for the last 14 years at both undergraduate and postgraduate levels. He has published 55+ research papers in national and international journals and conferences of repute. His areas of interest are heterocyclic chemistry, synthetic organic chemistry, and green chemistry. He is a reviewer of several journals of international repute in chemistry.A. K. Haghi is Professor Emeritus of Engineering Sciences and has published 250+ academic research-oriented books and 1000+ research papers in various journals and conference proceedings. His leadership in academic publishing includes founding and serving as Editor-in-Chief of prestigious journals. Professor Haghi’s extensive educational background and supervisory roles underscore his expertise and contributions to the field of engineering sciences. He is currently appointed as Honorary Research Associate (HRA) at University of Coimbra, Portugal.
Résumé
The study of the effects of ultrasound waves on a chemical reaction is known as sonochemistry. Ultrasound radiation (between 20 kHz and 2 MHz) is used to drive chemical and physical processes in solution. When ultrasound waves pass through liquid, they generate tiny bubbles that expand and then collapse quickly. This process releases energy, which can speed up the chemical reactions. Sonochemistry is considered a sustainable technology because it often utilizes less energy, requires fewer toxic chemicals, and generates less waste compared to traditional chemical processes.
Ultrasound waves are utilized in various processes including synthesis, crystallization, and purifications and find applications in various sectors like pharmaceuticals, material sciences, agriculture, food processing, and environment science.
This book is focused on applications of sonochemistry. It begins by explaining the basics of the technology and moves on to describing applications in the fields of chemistry, chemical engineering, and environmental engineering, and discussed applications currently being developed and future outlook.
