Advances in Antiparasitic Therapies and Drug Delivery

Advances in Antiparasitic Therapies and Drug Delivery systematically discusses the fundamentals, principles, and methods of molecular mixing and reaction process intensification. The book demonstrates, in detail, the implementation approach, process, and effectiveness of Higee chemical reaction engineering through novel industrial case studies that help industrial technicians to select reaction intensification technology route more scientifically. Sections cover the innovation and development process of Higee chemical reaction engineering, hydrodynamics behavior in Higee reactors, equipment design principles and methods, multiphase reaction of liquid-liquid, gas-liquid, gas-solid, gas-liquid-solid and reactive crystallization process intensification principles and effectiveness. The book is a systematic summary of several national award and key projects, such as the State Technological Innovation Award, State Science and Technology Advancement Award, National Natural Science Foundation of China, National key R&D Program of China, National ??863?? Program of China, National ??973?? Program of China and also some international cooperation.

1. Introduction of Higee chemical reaction engineering 2. Hydrodynamics behavior in Higee reactor 3. Design principle and method of Higee reactor 4. Liquid-liquid system intensified by high gravity and industrial application 5. Gas-liquid system intensified by high gravity and industrial application 6. Gas-solid multiphase system Higee reaction engineering 7. Gas-liquid-solid system Higee reaction engineering 8. Crystallization reaction by high gravity and industrial application

Dr. Prashant Kesharwani is working as an assistant professor of pharmaceutics at the School of Pharmaceutical Education and Research, Jamia Hamdard University, New Delhi, India. He has more than 12 years of teaching, research, and industrial experience at international levels from various countries, including the United States, Malaysia, and India. An overarching goal of his current research is the development of nanoengineered drug delivery systems for various diseases. He has more than 300 international publications in well-reputed journals and more than 20 international books (Elsevier). He is a recipient of many research grants from various funding bodies. He is also a receipt of several internationally acclaimed awards such as the most prestigious “Ramanujan Fellowship Award” from the Science and Engineering Research Board, Government of India. He actively participates in outreach and scientific dissemination for the service of the wider community.

• Handles high gravity process intensification technology
• Covers theoretical innovation in multiphase reaction intensified by high gravity
• Presents engineering application cases in chemical engineering, materials science, ocean engineering, and environmental engineering
• Provides systematic understanding of high gravity process intensification through theories and industrial applications