Founded in 1876, the Meriden Flint Glass Company produced internationally renowned glass which adorned ornate lanterns, jewelry boxes, vases, and many other intricate pieces. Although it was only in operation for a brief time, the company remains an important landmark in Meriden, Connecticut as well as the history of the American glassmaking industry. Author Diane Tobin details the history of the company, drawing upon extensive sources ranging from local Meriden papers and even the personal diary of the company's intrepid leader, Joseph Bourne. Fascinating insights into how the famous glass was made, the role the company played in early labor movements and the growth of Meriden alongside it, round out this exciting history of the Meriden Flint Glass Company.

Microfluidics is a young and rapidly expanding scientific discipline, which deals with fluids and solutions in miniaturized systems, the so-called lab-on-a-chip systems. It has applications in chemical engineering, pharmaceutics, biotechnology and medicine. As the lab-on-a-chip systems grow in complexity, a proper theoretical understanding becomes increasingly important.
The basic idea of the book is to provide a self-contained formulation of the theoretical framework of microfluidics, and at the same time give physical motivation and example from lab-on-a-chip technology. After three chapters introducing microfluidics, the governing questions for mass, momentum and energy, and some basic flow solutions, the following 14 chapters treat hydraulic resistance/compliance, diffusion/dispersion, time-dependent flow, capillarity, electro-and magneto-hydydrodynamics, thermal transport, two-phase flow, complex flow patterns and acousto-fluidics, as well as the new fields of opto-and nano-fluidics. Throughout the book simple models with analytical solutions are presented to provide the student with a thorough physical understanding of order of magnitudes and various selected micorfluidic phenomena and devices.
The book grew out of a set of well-tested lecture notes. It is with its many pedagogical exercises designed as a textbook for an advanced undergraduate or first-year graduate course. IT is also well suited for self-study.

Advances in Environmental Electrochemistry provides the basics of environmental electrochemistry, including redox reactions for contaminant removal, bio-electrochemical systems, electrochemical reactor design and the various electrochemistry-based techniques for practical wastewater degradation, environmental remediation and bioenergy recovery from waste. Technologies acting as key indicators for addressing the various aspects of environmental electrochemistry are covered, along with comparisons to conventional methods and potential ways forward. This book will be of interest to chemical engineers, environmental engineers, and all those interested in environmental biotechnology, bio-electrochemical systems, electrochemical sensors, advanced oxidation processes, biological wastewater treatment, and waste to energy recovery.

Biodegradable and Edible Food Packaging: Trends and Technologies presents the concept, status and recent advancements of Biodegradable and Edible packaging materials. The book offers broad and available information regarding principles of food packaging and its applications in different area of food and non-food. Chapters bring a detailed overview of the interaction of constituents and properties like physiochemical, mechanical, microbiological and engineering. The book also serves latest information regarding the packaging requirements of almost all food groups, including knowledge regarding biodegradable and edible food packaging materials that reduce environmental pollution. This is a solid reference book that helps readers understand different benefits of using biodegradable and edible films and their development and suitability with various foods.

Enzymes in Oil Processing: Recent Developments and Applications provides solid, quantitative descriptions and reliable guidelines surrounding the development of enzyme technology for oil processing. This book provides comprehensive understanding of topics such as enzymatic degumming, enzymatic interesterification and enzymatic biodiesel production, focusing on the different enzyme assisted extraction methods used in oil in various sources such as soybean, canola, corn, olive, etc. The book also highlights the most exciting enzymatic transesterification of cooking oil and bioremediation of cooking oil waste by lipases. This book will be of interest to researchers working in the fields of enzymes, oil processing, applied science and bio-wastes. It will also be useful to scientists working on the processing of oil by enzymes and students in the development of green and sustainable methods for the processing of oil in chemistry, biotechnology and chemical engineering.

Why did Pythagoras pause outside a Blacksmith's workshop? Can the nature of Harmony really be understood visually? Why do harmonies leave gaps or 'commas' when added together? In this charming little book Anthony Ashton uses a Victorian device called a Harmonograph to tell the story of Harmony and the intervals in the scale. With useful appendices and exquisite line drawings this is a unique and original introduction to this magical subject. WOODEN BOOKS are small but packed with information. "Fascinating" FINANCIAL TIMES. "Beautiful" LONDON REVIEW OF BOOKS. "Rich and Artful" THE LANCET. "Genuinely mind-expanding" FORTEAN TIMES. "Excellent" NEW SCIENTIST. "Stunning" NEW YORK TIMES. Small books, big ideas.

Lanthanides: Fundamentals and Applications provides the fundamentals, new research, promising applications and future outlooks of lanthanide compounds and lanthanide-based materials. The book begins with an introduction, including key concepts, oxidation states and sources, extraction and separation of the lanthanides, followed by spectroscopic and magnetic properties, and metals, crystals and compounds. Organometallic compounds, coordination compounds, molecular magnetic materials and luminescent materials are covered before a discussion of specific lanthanide applications. Spintronics, bioimaging, photoelectric materials, catalysis and nuclear applications are discussed. This comprehensive resource is ideal for researchers and students studying inorganic and materials chemistry, in both academia and industry.

Polymer Electrolyte–Based Electrochemical Devices: Advances, provides a complete overview of the theoretical and applied aspects of energy-related polymer electrolyte-based technologies. The book presents detailed thermodynamic and other basic requirements for smart materials like fuel cells, electrolyzers, batteries, sensors and devices for the abatement of pollutants. Delving into the physical-chemical, electrochemical, and mechanical properties of smart materials, it covers fundamental analysis and modeling to optimize the application of smart materials in terms of conductivity, chemical stability and kinetic properties. Detailed protocols for operation are suggested and discussed, including component development to optimize functionality, cost and upscaling. By exploring examples of actual prototypes based on recent research findings, analyzing requirements and cost estimate for large-scale production and implementation, as well as for their integration into existing systems, the environmental impact of multiple electrochemical applications is also examined.

The subjects of the essays in this book range from looking at the ever changing means of specific garments and clothing practices of subcultural groups to examining dress as a reflection of changing life styles in American culture. The essays also examine fashions, fads, and popular images. "Dress and Popular Culture" hopes to shed new light on popular culture through a study of the associations of dress to culture.

Polymer Blend Nanocomposites for Energy Storage Applications presents the latest developments in polymer blend-based nanocomposites for applications in energy storage, covering theoretical concepts, preparation methods, characterization techniques, properties and performance. The book begins by introducing polymer blend-based nanocomposites, preparation methods, mechanisms, requirements, theory, modeling, and simulation, with subsequent sections covering the use of specific base materials, including elastomers, thermoplastics, thermoset polymers, and biodegradable polymers. Final sections covers polymer blend nanocomposites with different fillers, both for conducting polymers and non-conducting polymers. Devices discussed include capacitors, supercapacitors, batteries, fuel cells, and solar cells. Finally, other key aspects are considered, including the conversion from laboratory to industry and recycling and lifecycle assessment of polymer blend nanocomposites used in energy devices.

Solution Methods for Metal Oxide Nanostructures reviews solution processes that are used for synthesizing 1D, 2D and 3D metal oxide nanostructures in either thin film or in powder form for various applications. Wet-chemical synthesis methods deal with chemical reactions in the solution phase using precursors at proper experimental conditions. Wet-chemical synthesis routes offer a high degree of controllability and reproducibility for 2D nanomaterial fabrication. Solvothermal synthesis, template synthesis, self-assembly, oriented attachment, hot-injection, and interface-mediated synthesis are the main wet-chemical synthesis routes for 2D nanomaterials. Solution Methods for Metal Oxide Nanostructures also addresses the thin film deposition metal oxides nanostructures, which plays a very important role in many areas of chemistry, physics and materials science. Each chapter includes information on a key solution method and their application in the design of metal oxide nanostructured materials with optimized properties for important applications. The pros and cons of the solution method and their significance and future scope is also discussed in each chapter. Readers are provided with the fundamental understanding of the key concepts of solution synthesis methods for fabricating materials and the information needed to help them select the appropriate method for the desired application.

In todays’ world with its widespread usage of personal-care products, pharmaceuticals, surfactants, flame retardants, plasticizers, various industrial additives, metals and metalloids, pesticides, and pesticide metabolites, environmental contaminants are an increasing source of pollution with a severe effect on the ecological system. Industries that produce these contaminants must find answers to remediate this. Nanomaterials in Environmental Analysis contributes to solving this problem by providing researchers in industry and academia with promising applications of nanoparticles in detection techniques and in removal of chemical species from the environment. Each chapter covers an aspect of using nanoparticles in detecting, measuring and remediating toxic chemical species in the environment.

Current Trends and Future Developments on (Bio-) Membranes: Recent Achievements for Ion-Exchange Membranes focuses on introducing and analyzing ion-exchange membranes performance and overviewing recent achievements in the structural development of ion-exchange membranes in various applications. Hence, this book is a key reference text for R&D managers in who are interested in the development of ion-exchange membrane technologies as well as academic researchers and postgraduate students working in the wider area of strategic treatments, separation and purification processes.

Micro Fluidization: Fundamentals and Applications provides background and history on micro fluidized bed research and development, summarizes and analyzes the hydrodynamic characteristics of gas-solid micro fluidized beds, and delves into areas such as research results of delayed onsets of minimum, bubbling and slugging fluidization regimes, as well as of the advanced transitions to turbulent and fast fluidization regimes. Based on these results, the wall effects - the key mechanism resulting in the unique behavior of micro fluidization - are analyzed. Other sections discuss gas and solid mixing characteristics in terms of gas residence time distribution, gas backmixing, and solids mixing. Final sections focus on presentations of the so-called micro fluidized bed reaction analyzer (MFBRA) - a powerful tool for catalyst screening, process development, optimization of reaction parameters, studies of reaction mechanism and kinetics, among many other purposes. The book describes, in detail, the MFBRA's system design characteristics, analytic methodologies and various applications in thermochemical and catalytic reaction analysis.

High Pressure Thermal Processing provides a detailed understanding on the technology itself, what it can be used for, and the benefits of the technology over conventional processing. From an academic perspective, all sections clearly outline the intricacies of the technology, new applications (other than for spore inactivation) and how technology related process variables impact on food, quality attributes, textures, safety, and chemical aspects, etc. From a manufacturer perspective, throughout the product development stage and the actual commercial implementation, the book content will assist users greatly in doing this efficiently and safely. Within a single reference book, this book reaches researchers in academia who face the challenge to drive the science and assist the manufacturers to commercialize these new technologies. It is also ideal for regulators around the world who need to assess these new technologies and implement guidelines for manufacturers.

Digital Twin for Smart Manufacturing: Emerging Approaches and Applications provides detailed descriptions on how to integrate and optimize novel digital technologies for smart manufacturing. The book discusses digital twins, which combine the industrial internet of things, artificial intelligence, machine learning and software analytics with spatial network graphs to create living digital simulation models that update and change as their physical counterparts change. In addition, they provide an effective way to integrate technologies like cyber-physical systems into a smart manufacturing system, potentially optimizing the entire business process and operating procedure of the manufacturing firm. Drawing on the latest research, the book addresses the topics and technologies key to successful implementation of a smart manufacturing system, including augmented and virtual reality, big data and energy management. Broader subjects such as additive manufacturing and robotics are also covered in this context, covering every aspect of production.

Engineering Principles, Modelling and Economics of Evaporative Coolers covers the basic engineering and technical principles behind the operation and construction of evaporative coolers, also highlighting challenges. The book presents the reader with selected case studies on modelling in the cooling chamber and explains the economic implications an evaporative structure can bring. Edited by a team of specialists, the book also explains the strong dependence of the technology's performance on environmental conditions, and hence the limits on temperature control in the preservation of post-harvest agriculture products. Evaporative coolers are an ancient technology, invented long before the introduction of chemical refrigerants as used in modern fridges or cooling towers. This two volume set covers the topic, with practical applications, construction techniques, and operation of the technology.