Introduction. Generation of Plasma in Liquid. Bubble and Electronic Initiation Mechanism. Decontamination of Volatile Organic Compounds. Biological Applications. Cooling Water Treatment Using Plasma. References. Index.
Dr. Young I. Cho has been a professor at Drexel University in Philadelphia since 1985. Prior to joining Drexel University, he spent four years at NASA's Jet Propulsion Laboratory, California Institute of Technology, as a member of the technical staff. His research interest includes fouling prevention in heat exchangers, physical water treatment using electromagnetic fields, hemorheology, and energy. Currently, he is developing methods of applying low-temperature plasma technology to prevent mineral and biofouling problems in cooling water.
Dr. Alexander Fridman is Nyheim Chair Professor at Drexel University, Philadelphia, and director of the A. J. Drexel Plasma Institute. He develops novel plasma approaches to material treatment, fuel conversion, hydrogen production, aerospace engineering, biology, and environmental control. Recently, significant efforts of Dr. Fridman and his group have been directed to development of plasma medicine, which is a revolutionary breakthrough area of research focused on direct plasma interaction with living tissues and direct plasma application for wound treatment, skin sterilization, blood coagulation, and treatment of different diseases, not previously effectively treated.
Dr. Yong Yang has been an associate professor at the College of Electrical and Electronic Engineering, Huazhong University of Science and Technology (HUST) in Wuhan, China, since 2011. Prior to joining HUST, he spent five years at Drexel Plasma Institute, Drexel University, pursuing his PhD degree. His research interests include low-temperature plasma discharges in liquid and atmospheric gas and their applications in environmental, medical, and energy-related fields.
Plasma methods that effectively combine ultraviolet radiation, active chemicals, and high electric fields offer an alternative to conventional water treatment methods. However, knowledge of the electric breakdown of liquids has not kept pace with this increasing interest, mostly due to the complexity of phenomena related to the plasma breakdown process. Plasma Discharge in Liquid: Water Treatment and Applications provides engineers and scientists with a fundamental understanding of the physical and chemical phenomena associated with plasma discharges in liquids, particularly in water. It also examines state-of-the-art plasma-assisted water treatment technologies.
The Physics & Applications of Underwater Plasma Discharges
The first part of the book describes the physical mechanism of pulsed electric breakdown in water and other liquids. It looks at how plasma is generated in liquids and discusses the electronic and bubble mechanism theories for how the electric discharge in liquid is initiated. The second part of the book focuses on various water treatment applications, including:
Decontamination of volatile organic compounds and remediation of contaminated water
Microorganism sterilization and other biological applications
Cooling water treatment
Drawing extensively on recent research, this one-stop reference combines the physics and applications of electric breakdown in liquids in a single volume. It offers a valuable resource for scientists, engineers, and students interested in the topic of plasmas in liquids.