This text explains the use of compressed air for energy storage and efficient pneumatic applications. Chapters cover the elementary physical and engineering principles related to compressed air, including compression and expansion characteristics, adiabatic, polytropic, and isothermal phenomena, and energy content within a given volume. The author also discusses the advantages and drawbacks of pneumatic technology and presents innovative ways to increase the energy efficiency of pneumatic actuators. A key highlight of the book is the introduction of a method to enhance efficiency by incorporating expansion work alongside constant pressure displacement. The author presents an analysis of various cylinder assemblies where energy efficiency is notably improved compared to conventional pneumatic actuators. The book serves as a primary reference for mechanical engineering students and as a handbook for engineers designing efficient pneumatic devices. Key Features: Fundamental and advanced information about actuators and their pneumatic applications Focus on energy efficiency testing Systematic chapter order for effective learning progression, with a working example to support comprehension References for further reading Appendices providing additional insights and resources .

This volume is a comprehensive compilation of reviews that show how various waste products can be used to produce useful products. Thirteen chapters highlight the following topics: - applications of plant-derived and fruit waste for value-added product formation; - fuel and chemical production from lignin - food waste bioconversion to high-value products - organic residues valorization for value-added chemicals - valorization of waste plastics to produce fuels and chemicals - food valorization for bioplastic production and concepts of circular economy in the valorization process. Chapters are written in an organized and strategic manner and also include the references from recent years. It will help students and researchers to quickly learn about modern waste valorization practices and advance their knowledge on the subject. The book is suitable as a reference for courses in environmental science, chemical engineering and agriculture. It also serves as a guide for trainees, managers and readers involved in waste management, sustainability and value-added product supply chains

This book presents numerical computational fluid dynamics (CFD) solutions for studying the effect of fluid-structure interaction (FSI) on evaluation of pressure waves in pipelines with cavitation. The authors develop a uniform one-dimensional model using coupled models. These models consider unsteady friction (UF), Poisson coupling, axial vibration (junction coupling), gas release and viscoelasticity. The authors consider two cases: elastic pipelines and viscoelastic (VE) pipelines. The book starts with a detailed literature review on the relevant methods for calculating transient fluid flow, followed by chapters that explain the mathematical development for calculations and the numerical steps for water hammer and transient cavitation. The concluding chapters present the results for the two pipeline cases. The book is presented in simple language intended for engineering students who want to understand CFD simulations for transient flow in pipelines. Equations are explained in simple steps for easy understanding, and concepts are illustrated with detailed diagrams. The information and the codes demonstrated in the book will equip readers with the knowledge to study hydraulic problems where transients are caused by pump starting, stopping and failure.

Principles of Automation and Control is a concise textbook that explains the basics of robust automation and control strategies. It demonstrates the essentials for meeting consumer needs and ensuring cost-effective manufacturing processes without compromising product quality. With a focus on Industry 4.0, this book explores the principles and applications of automation in industrial systems, emphasizing efficiency, profitability, and flexibility. The thirteen chapters cover automated processes, control theory, computer control devices, industrial automation tools, and practical examples of system automation. The text uses a multidisciplinary approach with simple language to cater to the needs of readers at all levels (learners, beginner engineers, and professionals) seeking to expand their knowledge in automation and control theory and practice. Real-world case studies and empirical findings are also highlighted, which show how automated business solutions can enhance performance.

Intelligent Systems for IoE Based Smart Cities provides simplified information about complexities of cyber physical systems, the Internet of Everything (IoE) and smart city infrastructure. It presents 11 edited chapters that reveal how intelligent systems and IoE are driving the evolution of smart cities, making them more efficient, interconnected, and responsive to the needs of citizens. The book content represents comprehensive exploration of the transformative potential and challenges of IoE-based smart cities, fueled by Artificial Intelligence (AI) and Machine Learning (ML) innovations. Key Topics: Physical layer design considerations that underpin smart city infrastructure Enabling technologies for intelligent systems within the context of smart computing environments Smart sensors and actuators, their applications, challenges, and future trends in IoE-based smart cities Applications, enabling technologies, challenges, and future trends of IoE for smart cities. The integration of Artificial Intelligence, Natural Language Processing, and smart cities for enhanced urban experiences machine learning-based intrusion detection techniques for countering attacks on the Internet of Vehicles Smartphone-based indoor positioning applications using trilateration and the role of sensors in IoT ecosystems IoT, blockchain, and cloud-based technology for secure frameworks and data analytics Blockchain and smart contracts in shaping the future of smart cities. This is a timely reference for researchers, professionals, and students interested in the convergence of IoT, intelligent systems and urban studies into smart city planning and design.

Diverse Strategies for Catalytic Reactions is a compelling exploration of catalysis, a cornerstone in chemical sciences that has propelled the evolution of chemical manufacturing at the industrial scale. Highlighting the distinctive characteristics of catalysis, the book delves into pivotal topics and subfields. It underscores the revolutionary role catalysis plays in novel design, synthesis, and energy-efficient development, while minimizing side products, promoting atom economy, and embracing green chemistry principles. The comprehensive contents of this book include an array of chapters by experts, each addressing a specific catalytic approach, such as recent advances in electrocatalysis, nano-catalysis for selective oxidation, micellar catalysis, green catalysts, and more. Each of the 7 book chapters includes a summary and list of references for a broad range of readers. Readers will understand the range of chemical engineering strategies that are used to speed up reactions and synthesize molecules of interest. With its rich insights and practical applications, this book serves as an invaluable reference for graduate students, researchers, and professionals across academic and industrial domains.

Recent Advances in Biosensor Technology (Volume 2) is a comprehensive guide to the latest developments in biosensor technology, written by experts in bioengineering and biosensor development. The book is an essential resource for researchers and biomedical engineers interested in the latest developments in biosensor technology. The volume covers the applications of biosensors in different fields. It features 9 chapters that cover key themes in this area, including biosensors for natural bioactive compounds, wearable biosensors in healthcare, 3D bioprinting and biosensors, biosensors for neurodegenerative diseases, protein biosensing and pathogen detection, biosensors for diabetes diagnosis, paper-based biosensors in diagnostics, enzymatic biosensors and their applications, and nanobiosensors in agriculture. One of the key features of this book is its detailed discussion of the novel research findings in biosensor technology, providing readers with the most up-to-date information in the field. Each chapter includes a comprehensive review of relevant literature, as well as practical examples to demonstrate the potential applications of biosensors in various fields. Furthermore, this book includes detailed references for further reading, making it an excellent resource for readers looking to deepen their understanding of biosensor technology.

Nowadays, huge amounts of chemicals are commercialized, shipped, stored, and converted to ensure the commercial availability of goods of daily use. Different hazards are involved in the use of these chemicals due to their intrinsic physicochemical properties. Several accidents have occurred in the past due to these hazards in chemical and process industries with serious consequences for people, buildings, and the environment. Safety in Chemical and Process Industries: A Comprehensive Assessment provides basic knowledge on safety procedures and experimental techniques for evaluating risks related to storage, transport, and transformation of hazardous materials. The book is designed for undergraduate and graduate students of Chemical, Materials, and Environmental Engineering, Chemistry, and Environmental Science. Key features: - Provides a strong foundation on safety management and risk assessment for chemical handling and management - Tackles the management of contaminated industrial sites - Focuses on the risk assessment to set remediation goals - Includes information on Health Impact Assessments - Includes detailed references for advanced readers at PhD or postdoc levels. The book is organized in the following core topics that are part of relevant course modules: - Fundamentals of thermal explosions and calorimetric techniques (Chapters 1-3) - Homogeneous and heterogeneous explosions (Chapters 4-7). - Consequences of fires and heterogeneous explosions (Chapter 8) - Industrial hygiene and toxicology (Chapter 9) - Preventive safety measures and protective measures (Chapter 10) - Risk assessment for industrially contaminated sites (Chapter 11) - Health impact assessment within environmental impact assessment studies (Chapter 12)

Ultrasound Technology for Fuel Processing is a comprehensive reference guide that explores the application of sonochemistry and ultrasound waves in the intensified processing of fuels. The book focuses on the cavitation phenomenon, which generates extreme conditions, such as high temperatures and pressures, within the cavitation bubbles, leading to significant enhancements in chemical reactions and overall process yields. Key features of the book include comprehensive coverage of ultrasound fuel processing, with the inclusion of information about several new processing techniques, detailed references, and a focus on sustainability enhancing petrochemical technologies. Key Topics: - The basics of ultrasound technology, including its history, acoustic wave origin, and process parameters influencing cavitation thresholds. - Green hydrogen production through sonolysis of water and the influence of various parameters on hydrogen yield. - Pre-treatment methods for biofuel production, exploring both conventional and novel green methods. - Ultrasound-based techniques to enhance alternative energy production (biocrude, biogas, and bioethanol). - Biodiesel synthesis using ultrasound-microwave synergy for enhanced processing rates. - Intensified approaches in sonochemistry, including the use of cavitation, fundamentals of sonochemical reactors, and operational guidelines for maximizing biodiesel yields. - Enhanced oil recovery and crude oil upgradation using ultrasound and cavitation techniques, focusing on cracking heavy hydrocarbon molecules. - Ultrasound-assisted chemical and bio-desulfurization processes. Ultrasound Technology for Fuel Processing provides an in-depth understanding of the principles and applications of ultrasound in fuel processing, offering valuable insights for researchers, faculty, and professionals in fuel processing technology and related areas in industrial, petroleum and chemical engineering.

This reference is a comprehensive guide to carbon quantum/ dots (CQDs) for researchers. The book includes ten chapters that explain the synthesis of CQDs, their chemical properties and their application in the field of nanotechnology. The content starts with a detailed introduction to CQDs, followed by the synthesis, chemical properties, and characterization of quantum dots. Subsequent chapters cover CQD application in the fabrication of biomedical materials, chemical sensing, wastewater treatment, toxicology, and energy storage. The final chapter of the book explores the future prospects of these quantum dots which gives a glimpse of new horizons in research and development. This book provides guidance to students and researchers who require an understanding of carbonaceous quantum dots. It also serves as a handbook for professionals, researchers and students working in chemical technology sectors.