Digital Transformation and Equitable Global Health: A Future-Ready Perspective presents a collective body of knowledge and global experiences that demonstrate current status and future trends in the use of exponential technologies and their potential for poverty reduction, improving health outcomes, strengthening health systems, and transforming traditional development aid structures. The book uses a translational innovation perspective to guide the reader—regardless of their area of expertise—on the rationale behind the co-creation of human-centered, affordable, and sustainable digital solutions.It addresses the interest of professionals from multiple areas (e.g., technology, health, social development, global financing), and it is a valuable resource for professionals, social scientists, practitioners, researchers, instructors, and undergraduate and graduate students interested in understanding the challenges and complexities of global public health and the applied uses of health technologies for equitable access to primary health care and universal health coverage.
New Aspects of Desalination and Multigeneration Technologies: Energy Analysis, Hybrid Desalination, Multigeneration explores energy modeling and analysis of desalination systems in both standalone and hybrid states. Fundamentals of renewable desalination technologies for developing solar and other renewable desalination plants are covered, along with comprehensive information on freshwater systems powered from renewable and non-renewable energy. In addition, hybridization of desalination plants, power generation systems and various energy resources are featured as well as thermodynamic modeling of integrated power plants and desalination systems.Other topics covered include the application of freshwater production methods from an energy point of view; cogeneration technologies; economic and thermoeconomic analysis; and integration of fresh water and power production plants. This reference is useful for energy and mechanical engineers as well as all those working in renewable, environmental and water engineering research.
Handbook of Power Electronics in Smart Grids and Intelligent Energy is an expert guide to smart grids, intelligent energy, artificial intelligence and machine learning applications increasingly enabled by modern grid-aware power electronics converters. The work is designed to provide clear technical presentation with a focus on commercial viability, and it supports any or all aspects of a project requiring specialist design, analysis, installation, commissioning, and maintenance services. With this book in hand, engineers will be able to execute design, analysis and evaluation of assigned projects using sound engineering principles and adhering to the business policies and product/program requirements. The handbook supports power electronics engineers and researchers interested in new approaches to advance smart grid security, resiliency, energy management, energy efficiency, diagnostics and control systems and power electronics interfaces.
Managing the Consequences of Weather, Climate, and Ocean Extremes in Our Warming World examines the impacts of weather and climate extremes and evaluates the steps that might be done to mitigate the negative effects of these extremes. The information is targeted and given in a cohesive and complete manner due to the author's broad and in-depth subject area expertise. The book complements the previously published volume Science of Weather, Climate and Ocean Extremes and will help professionals gain an authoritative, evidence-based, and practice-relevant understanding of the significant risks to the future performance of the human and natural systems they are managing.
Spinel Nanoferrites: Physicochemical and Biological Applications follows a comprehensive and multidisciplinary approach to spinel nanoferrites and their cutting-edge applications across energy, environment, and biomedicine, offering a roadmap to the development of future nano system-based tools. Sections cover structure, properties, classification, characterization techniques, and processing methods. Subsequent chapters guide the reader through various key energy and environmental applications of spinel nanoferrites, including electronics, devices, sensors, wastewater treatment, and catalysts. Magnetic and tailorable properties of nanoferrites are also examined, as is the role of spinel nanoferrites in novel therapeutic applications. Finally, current outlook and future opportunities for these novel nanostructures are considered. This is a valuable resource for all those with an interest in nanoferrites and novel nanomaterials, including researchers and advanced students across nanotechnology, biomedicine, pharmaceutical science, chemistry, materials science, and environmental science, and industrial scientists, engineers, and R&D professionals.
Integrated Systems Analysis of Ecosystems: The Land, Water, Food, and Climate Nexus focuses on the interface between soil sciences, hydrology, economy, ecology, agronomy, and environmental sciences. The book cuts across disciplinary boundaries and addresses broad issues impacting soil, water, food, and energy security, as well as the operation of agricultural and ecological processes. It will summarize important advances in cutting-edge models in ecology and agro-ecology, including biophysical process-oriented models and land use integrated models, along with their implications at various spatiotemporal scales.
Hydrogels for Wound Healing provides a comprehensive review of the materials, properties, mechanism of action and application of engineered hydrogels in wound treatment. This book thoroughly covers all aspects of hydrogels in wound healing, reviewing a range of key materials and composites – including metal oxides and polymer composites – as well as their design, synthesis, and core properties. The book explores various types of wound healing hydrogels, such as 3D-printed, injectable, sprayable, tunable, and more. Toxicity, clinical and commercial aspects are detailed, providing holistic coverage for those interested in designing and applying these hydrogels in research and clinical settings. This comprehensive resource is a complete reference for materials scientists, biomedical engineers, biomedical scientists and clinicians with an interest in novel wound healing approaches.
Industrial Water Conservation: Systematic Design Tools and Case Studies offers fundamental knowledge of various established process integration tools for water conservation, including water pinch analysis and mathematical programming techniques. The book provides a demonstration of water conservation tools on various industrial case studies, enabling readers to learn how these methods can be implemented in actual industrial settings. Part A provides various systematic methods on water recovery system design based on process integration techniques, whereas Part B provides various industrial case studies covering the success stories of the implementation of the methods covered in Part A.This is an indispensable resource for practitioners in various industrial sectors – chemicals and petrochemicals, pulp and paper, food and beverage, textile, etc., consultants in water-related industries, as well as (post)-graduate students in chemical engineering.
Polybenzimidazoles (PBIs) represent a unique class of polymers with exceptional thermo-mechanical properties and chemical resistance suitable for a variety of applications. It is primarily used to produce temperature and flame-resistant fibers but because of its high thermal stability and interesting structure of imidazole-based polymers, PBIs are attracting steadily increasing interest for applications in different fields.Polybenzimidazole-Based Materials: From Synthesis to Application presents readers with comprehensive and cutting-edge information on the synthesis, structure modification, processing, properties, and applications of PBIs with various structure as well as their related copolymers. Recent advances and new applications of PBIs are also discussed, making this a valuable reference for material scientists, polymer scientists and engineers in academia and industry.
Copper Oxides and Related Materials: Properties, Synthesis, and Applications provides a thorough description of the physical, structural, electrophysical, chemical, electronic, and biological properties of copper oxides in one convenient volume. The book focuses on human and environmental aspects, paying particular attention to health, environmental remediation, electronic applications, energy storage, and solar energy conversion.Copper oxides are widely used in many applications such as antibacterial, antimicrobial, and anticancer treatments; as biocide agents against phytopathogens or hospital-acquired diseases; and, they are also a standard material used for superconductivity. This volume thoroughly explores the most exciting and relevant applications of copper oxides, a class of material with a sometimes bewilderingly wide array of potential uses.