Xiaoyu Wang - Böcker

Fundamentals of Aeroacoustics with Applications to Aeropropulsion Systems from the Shanghai Jiao Tong University Press Aerospace series, is the go-to reference on the topic, providing a modern take on the fundamental theory and applications relating to prediction and control of all major noise sources in aeropropulsion systems.

This important reference compiles the latest knowledge and research advances, considering both the physics of aerodynamic noise generation in aero-engines and related numerical prediction techniques. Additionally, it introduces new vortex sound interaction models, a transfer element method, and a combustion instability model developed by the authors. Focusing on propulsion systems from inlet to exit, including combustion noise, this new resource will aid graduate students, researchers, and R&D engineers in solving the aircraft noise problems that currently challenge the industry.

Updates the knowledge-base on the sound source generated by aeropropulsion systems, from inlet to exit, including combustion noise Covers new aerodynamic noise control technology aimed at the low-noise design of next generation aero-engines, including topics such as aerodynamic noise and aero-engine noise control Includes new, cutting-edge models and methods developed by an author team led by the editor-in-chief of the Chinese Journal of Aeronautics and Astronautics Considers both the physics of aerodynamic noise generation in aero-engines and related numerical prediction techniques

Distributed Control and Cyber Security Issues in Microgrids presents a thorough treatment of distributed control methods and cyber security issues for power system researchers and engineers. With the help of mathematical tools, this reference gives a deep understanding of microgrids and new research directions, addressing emerging concepts, methodologies and applications of monitoring, control and protection in smart microgrids with large-scale renewables. With the integration of more distributed or aggregated renewables and the wide utilization of power electronic devices, the smart microgrid is facing new stability and security challenges.

Includes global case studies to demonstrate distributed control success stories Offers detailed illustrations and flowcharts to address challenges and technical solutions for those working in power systems in utilities and industry Showcases new challenges faced in the stability and security of smart microgrids

Additionally, it investigates the dynamics of droplet spattering by categorizing spatter patterns under diverse conditions, discusses the critical stability of droplet surfaces, and reveals the mechanisms by which cavitation bubble collapses induce droplet breakage.

This brief provides a comprehensive review of the rapidly expanding field of cavitation and bubble dynamics, covering the discussion of bubble dynamics equations, bubble oscillation dynamics, theoretical prediction models of jets, and high-speed photography technology.

Explores photofunctional polymer composites for cutting-edge biomedical applications and innovations The rapid evolution of materials science has positioned photofunctional polymer composites as a central focus in advancing biomedical technologies. These materials, with their tunable light-responsive properties, play a pivotal role in enabling breakthroughs in bioimaging, cancer therapy, and phototherapy. However, while fundamental research in this field has progressed considerably, translating these innovations into practical biomedical products continues to present significant challenges. Photofunctional Polymer Composites for Bioapplications systematically covers the structures, properties, and applications of polymer composites designed for biomedical use. Featuring clear organization with chapters progressing from foundational principles to advanced applications, the book begins with an overview of classifications and biomedical applications of photofunctional polymer composites before progressing to their structures, photophysical and chemical properties, and construction strategies. The central chapters focus on fibers, films, nanocomposites, and hydrogels, each discussing design, synthesis, and biomedical function. The final chapter offers a forward-looking perspective on the field, stressing interdisciplinary collaboration as a pathway to practical implementation. Balancing theory, methodology, and application, Photofunctional Polymer Composites for Bioapplications: Covers an extensive range of polymer composite types, including nanomaterials, fibers, films, and hydrogelsProvides in-depth discussion of charge transport, energy conversion, and signal transduction in composite systemsProvides insights into how multi-component strategies and interface engineering may overcome current limitationsExplores approaches that integrate chemistry, physics, biology, and engineeringIncludes detailed examination of biosafety considerations critical to biomedical applicationsAn authoritative reference for advancing both research and translational development, Photofunctional Polymer Composites for Bioapplications is designed for graduate-level students, researchers, and professionals in polymer chemistry, materials science, and biomedical engineering. It is well-suited for courses such as Advanced Biomaterials, Polymer Science for Biomedical Applications, and Nanomaterials in Medicine within graduate and doctoral programs in chemistry, materials science, and bioengineering.