D. K. Rajak – författare

Sustainable biomaterials are used as substitutions for traditional materials in aerospace, automotive, civil, mechanical, environmental engineering, medical, and other industries. This book presents the current knowledge and recent developments on the characterization and application of sustainable biomaterials with biomanufacturing 4.0 techniques. The book also describes the unique properties of various classes of sustainable biomaterials, making them highly suitable for many industrial applications.Advances in Sustainable Biomaterials: Bioprocessing 4.0, Characterizations, and Applications presents key chapters on smart biopolymer composites production and processing methods and provides a wide range of applications in a variety of fields such as medical, food, agriculture, electronics, manufacturing, and chemical engineering. The book features the most recent and detailed information on advancements in biopolymer biomaterials and emphasizes synthesis, characterization, modeling, manufacturing, and testing strategies.Written to be used as a resource guide on biomaterials and innovations, undergraduate and postgraduate students studying manufacturing and materials science will find this book very useful in addition to those working in mechanical engineering, biomedical engineering, manufacturing of pharmaceuticals, biotechnology, and electronics engineering fields. The book can also be used as additional classroom reading for an advanced course on biomaterials modeling and optimization.

Sustainable biomaterials are used as substitutions for traditional materials in aerospace, automotive, civil, mechanical, environmental engineering, medical, and other industries. This book presents the current knowledge and recent developments on the characterization and application of sustainable biomaterials with biomanufacturing 4.0 techniques. The book also describes the unique properties of various classes of sustainable biomaterials, making them highly suitable for many industrial applications.Advances in Sustainable Biomaterials: Bioprocessing 4.0, Characterizations, and Applications presents key chapters on smart biopolymer composites production and processing methods and provides a wide range of applications in a variety of fields such as medical, food, agriculture, electronics, manufacturing, and chemical engineering. The book features the most recent and detailed information on advancements in biopolymer biomaterials and emphasizes synthesis, characterization, modeling, manufacturing, and testing strategies.Written to be used as a resource guide on biomaterials and innovations, undergraduate and postgraduate students studying manufacturing and materials science will find this book very useful in addition to those working in mechanical engineering, biomedical engineering, manufacturing of pharmaceuticals, biotechnology, and electronics engineering fields. The book can also be used as additional classroom reading for an advanced course on biomaterials modeling and optimization.

This set consists of two volumes, which present an analysis of the existing surveys in the literature of batteries, chargers, control systems, battery management systems, plugs, sockets, drives and fuel cell based and plug in smart electric and hybrid vehicles, and discusses the recent developments, future outlook, advanced and analytical modeling techniques of smart electric and hybrid vehicles. Volume 1 provides detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehicles and depth in knowledge of power electronics tools in smart electric and hybrid vehicles. It also compiles the research work and findings in advancements of smart electric and hybrid vehicles from automobile, mechanical, electronic, electrical, computer science and allied engineering domains and explains how smart electric and hybrid vehicles can be utilized for harmful emissions over the entire life cycle of vehicle and how reliance on fossil fuels can be cut down. Volume 2 discusses the integration of newer developments like digital twin, artificial intelligence, Nature inspired algorithms, Internet of Things, role of Industry 4.0 in advancements in vehicle engineering. It compiles overall aspects of advancements in smart electric and hybrid vehicles by bringing the latest research and development by comprehensive range of mathematical, numerical and simulation modeling, and management techniques to strengthen the engineering science and technological developments for future.This volume set:Discusses different types of lightweight and robust materials for the fabrication of smart electric and hybrid vehicles and presents computational models, emerging technologies, numerical techniques, and environmental and economic benefits applicable to electric vehicles. Showcases a detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehicles explains diagnostics, prognostics, reliability, and durability issues in smart electric and hybrid vehicles.Focuses on contemporary aspects of smart electric and hybrid vehicles techniques for new means and models for green environment and discusses the role of artificial intelligence, machine learning, and machine vision tools in smart electric and hybrid vehicles and presents design and analysis of charging stations and their sustainability roadmap for smart electric vehicles.Highlights the applications of smart and hybrid vehicles in diverse sectors including aerospace, agriculture, defence, and medical and the cyber and functional security of intelligent and hybrid vehicles.Covers electromechanical drives, storage systems, wireless charging, and component design for smart electric and hybrid vehicles, internet of things-based battery and charging management approach and effect of voltage drop in charging capacity of smart electric vehicles.It is primarily written for senior undergraduate, graduate students, and academic researchers in the fields of electrical engineering, electronics and communication engineering, computer engineering, and automotive engineering.

This book presents an analysis of the existing surveys in the literature of batteries, chargers, control systems, battery management systems, plugs, sockets, drives, and fuel-cell-based and plug-in smart electric and hybrid vehicles. It provides detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehicles and in-depth knowledge of power electronics tools in smart electric and hybrid vehicles. This book compiles the research work and findings in advancements of smart electric and hybrid vehicles from automobile, mechanical, electronic, electrical, computer science, and allied engineering domains and explains how smart electric and hybrid vehicles can be utilized without harmful emissions over the entire lifecycle of a vehicle and how reliance on fossil fuels can be reduced.Features:Discusses different types of lightweight and robust materials for the fabrication of smart electric and hybrid vehiclesPresents computational models, emerging technologies, numerical techniques, and environmental and economic benefits applicable to electric vehiclesHighlights the applications of smart and hybrid vehicles in diverse sectors including aerospace, agriculture, defense, and medicalCovers electromechanical drives, storage systems, wireless charging, and component design for smart electric and hybrid vehiclesShowcases a detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehiclesIt is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of electrical engineering, electrical and electronics engineering, computer engineering, and automotive engineering.

In this book, recent developments, the future outlook, and advanced and analytical modeling techniques of smart electric and hybrid vehicles are explained with examples backed by experimental and numerical data. It also discusses the integration of newer developments like digital twin, artificial intelligence, nature-inspired algorithms, Internet of Things, and the role of Industry 4.0 in advancements in vehicle engineering. It compiles overall aspects of advancements in smart electric and hybrid vehicles by bringing the latest research and development by comprehensive range of mathematical, numerical, and simulation modeling, and management techniques to strengthen the engineering science and technological developments for the future.Features:This book focuses on contemporary aspects of smart electric and hybrid vehicles techniques for new means and models for green environmentDiscusses the role of artificial intelligence, machine learning, and machine vision tools in smart electric and hybrid vehiclesPresents design and analysis of charging stations and their sustainability roadmap for smart electric vehiclesHighlights the cyber and functional security of intelligent and hybrid vehiclesExplains diagnostics, prognostics, reliability, and durability issues in smart electric and hybrid vehiclesCovers the Internet of Things-based battery and charging management approach and effect of voltage drop in charging capacity of smart electric vehiclesIt is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of electrical engineering, electronics and communication engineering, computer engineering, and automotive engineering.

This book presents an analysis of the existing surveys in the literature of batteries, chargers, control systems, battery management systems, plugs, sockets, drives, and fuel-cell-based and plug-in smart electric and hybrid vehicles. It provides detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehicles and in-depth knowledge of power electronics tools in smart electric and hybrid vehicles. This book compiles the research work and findings in advancements of smart electric and hybrid vehicles from automobile, mechanical, electronic, electrical, computer science, and allied engineering domains and explains how smart electric and hybrid vehicles can be utilized without harmful emissions over the entire lifecycle of a vehicle and how reliance on fossil fuels can be reduced.Features:Discusses different types of lightweight and robust materials for the fabrication of smart electric and hybrid vehiclesPresents computational models, emerging technologies, numerical techniques, and environmental and economic benefits applicable to electric vehiclesHighlights the applications of smart and hybrid vehicles in diverse sectors including aerospace, agriculture, defense, and medicalCovers electromechanical drives, storage systems, wireless charging, and component design for smart electric and hybrid vehiclesShowcases a detailed comparative analysis of parameters of intelligent electric and hybrid vehicles with conventional vehiclesIt is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of electrical engineering, electrical and electronics engineering, computer engineering, and automotive engineering.