Theoretical Foundations of Multiscale Modelling aims to address thermodynamical and statistical mechanical foundations of methods commonly employed, highlighting the potential and limitations of each approach. Starting with an overview of the basics of statistical mechanics, the book's chapters illustrate the general theory of molecular modelling, the concepts and methods for the study of complex molecular systems, key strategies employed to perform computational calculations and simulations, recent, cutting-edge tools of the trade, and a selection of case studies that highlight multi-scale modeling, multiple-resolution simulation methods, and machine-learning applications.Drawing on the experience of its expert authors, this book is an insightful guide for all those learning, applying or interested in exploring multiscale modelling methods for their own work. Multiscale modelling approaches can provide valuable insights to researchers across a broad range of fields, but the interdisciplinary applicability of these approaches means both new learners and experienced researchers may not have a clear understanding of the theoretical and computational fundamentals underpinning these methods.
Handbook of MRI Pulse Sequences, Second Edition includes 92 self-contained sections, with each section focusing on a single subject. A new section on detailing the advanced pulse sequence techniques covers a variety of basic and advanced image reconstruction methods. The extensive topic coverage and cross-referencing makes this book ideal for beginners learning the building blocks of MRI pulse sequence design, as well as for experienced professionals who are seeking deeper knowledge of a particular technique.This book is among the most important medical imaging techniques available today. Each of these scanners is capable of running many different "pulse sequences." These sequences are governed by physics and engineering principles and implemented by software programs that control the MRI hardware.
Interstellar Travel: After Arrival is a comprehensive, technical look at the necessary considerations for settlement on an extra solar planet following interstellar travel, addressed by leading experts in the fields of space development. The book features the current and future plans for lunar, Mars, and asteroid settlement, and how what we learn from such future endeavors might apply to settlement at destinations around other stars. In addition, scientists who have been considering the construction of large space structures and terraforming discuss realistic options to be considered.Other chapters cover necessary considerations such as whether terraforming is possible and how it might be accomplished, the ethical issues and scientific constraints to interacting with an alien biosphere, and what we might learn from settling within our own Solar System that would apply to settling elsewhere. The third book of a three-book compilation, this new release presents up-to-date and realistic technical and scientific considerations of the challenges that settling on an exoplanet would bring, including review of the current technological capabilities and how they might be put towards life on an extra solar planet.
Managed Pressure Drilling Fundamentals, Methods and Applications, First Edition provides the basic infrastructure and extended support necessary for drilling engineers to apply managed pressure drilling to their operations. Enhanced with multiple new chapters and contributions from both academic and corporate authors, this reference provides engineers with the basic processes and equipment behind MPD. Other sections explain the latest technology and real-world case studies, such as how to optimize the managed pressure drilling system, how to choose the best well candidate for MPD, and how to lower costs for land-based operations. Packed with a glossary, list of standards, and a well classification system, this book is a flagship reference for drilling engineers on how to understand basics and advances in this fast-paced area of oil and gas technology.
Data-driven Analysis and Modeling of Turbulent Flows explains methods for the analysis of large fields of data, and uncovering models and model improvements from numerical or experimental data on turbulence.Turbulence simulations generate large data sets, and the extraction of useful information from these data fields is an important and challenging task. Statistical learning and machine learning have provided many ways of helping, and this book explains how to use such methods for extracting, treating, and optimizing data to improve predictive turbulence models. These include methods such as POD, SPOD and DMD, for the extraction of modes peculiar to the data, as well as several reduced order models.This resource is essential reading for those developing turbulence models, performing turbulence simulations or interpreting turbulence simulation results.
Natural Biopolymers for Drug Delivery thoroughly details the properties, benefits and challenges of using these biomaterials in drug delivery, with a strong focus on biocompatibility and reduction of unwanted interactions. An extensive range of natural biopolymers are explored, such as cellulose, chitosan, casein, gelatin, cashew gum, and many more. Biocompatibility, toxicity and regulatory considerations are also thoroughly discussed, ensuring the reader is fully equipped for efficient biomaterials selection and utilization in drug delivery applications. This is a must-have reference for those working in the fields of materials science, biomedical engineering, pharmaceutical science and pharmacology, chemical engineering and clinical science.
Protein-based Nanocomposites for Tissue Engineering details the design, development, efficacy and tissue engineering applications of a range of protein-based nanocomposite materials. Protein-based nanocomposites offer advantageous properties in that they are biodegradable, biocompatible, nonantigenic, highly stable and possess strong binding capacity. These unique properties make protein-based nanocomposite carriers promising candidates for controlled cell delivery in tissue engineering. This book covers a selection of protein types in their nanocomposite form, from albumin and keratin to collagen and silk. Each protein nanocomposite is described in detail, exploring their application in cell delivery and tissue engineering.The design, development, properties and molecular mechanism of protein-based nanocomposites is thoroughly discussed before going on to analyze the advantages and limitations of these useful materials, making this book an ideal resource for readers who want to explore biocompatible and naturally derived material options for tissue engineering applications. Academics and researchers in the fields of materials science, biomedical engineering, regenerative medicine and nanotechnology will find the book a must have.
Microgrid Technology and Microgrid Cluster Development is a comprehensive guide to microgrid systems fundamentals, optimization, control, protection, and energy management.The book explains microgrid architectures that might be combined to create a cluster of microgrids. This is a valuable resource for all those looking to gain a complete understanding of current microgrid and cluster technology, including students, researchers, faculty, R&D professionals, engineers, and other industry personnel with an interest in grid integration, power systems, and renewable energy.The microgrid is first defined as a standalone entity with potential interconnections with external grids. Then, the layout, line technology, and interface technology of potential microgrid cluster topologies are designed, with comparison and analysis of the various microgrid and cluster designs in terms of price, scalability, security, dependability, stability, communications, and business models. Key aspects are covered in detail, including optimization algorithms and the role of machine learning and artificial neural networks, control and protection techniques, and energy management and storage.
Phytochemicals for Health presents the state of the art in the field of Phytochemicals. It highlights how, following the interactions of plants and the environment, an analytical approach for standardization and quality control is of fundamental importance to product quality control.Parts I and II cover the main problems relatied to natural products (plants, extraction, quantitative analysis, relationship with the surrounding environment). Part III presents the main classes of organic compounds identified and reported, and Part IV includes inorganic compounds. It also includes a chapter covering all the natural compounds that have become Active Principle Ingredients (API), highlighting next challenges.Phytochemicals for Health is a valuable tool for senior scientists working in natural products field interested in investigating the correlation between chemical profile and biological activity in order to obtain a product that is safe for human health.
Frosting and Icing for Efficient Energy Use in Engineering Applications provides a compendium of innovative case studies for mitigating impacts from frosting and icing on energy. This book first clarifies the mechanisms of frosting and icing, outlining modeling options, and control techniques. Next, a series of experimental examples show the effects of frosting at different scales of energy production, from ambient air vaporizers to wind turbines, and demonstrate how to control these for maximum efficiency. Finally, the mechanisms and mitigation of frosting are examined in a variety of infrastructure scenarios, including sustainable food storage and efficient high-speed railways.Combining the theoretical fundamentals of frosting and icing with a huge range of real-world case studies, this resource shows how to limit energy loss to these effects in key areas of engineering.