Teaches Readers How to Apply a Structured Problem-Solving Methodology for Industrial Fields Based on Sound Scientific Principles As modern industrial processes have become increasingly complex, complicated multi-factor problems have emerged. These complex problems end up costing companies millions of dollars every day. Existing problem-solving techniques are only effective to a certain point. This book provides a solution to a myriad of industrial problems by using first principles and rigorous hypothesis testing. Key topics covered within the work include: How to use the latest research, advanced modeling, big data mining, analytical testing, and many other techniques to systematically create and test hypotheses surrounding why a process is malfunctioning How to use scenario development to frame a team's understanding of why a process is malfunctioning How to approach today's lack of experienced industrial workers, whose failure to approach problem solving from first fundamentals are causing myriad of inefficiencies in industry How to use multiple methodologies together with an emphasis on first principles and mechanistic math modeling as a basis to industrial problem solving Engineers of any discipline working in both research and development of manufacturing environments, along with professionals in any industrial discipline looking to reduce costs will be able to use this work to both understand and pragmatically solve the pressing issues we see in today's industrial market.

Recent studies indicate that China accounts for about 96 percent of the world's supply of rare earth materials (REMs). With REMs becoming increasingly important for a growing number of high-tech applications, appropriate action must be taken to mitigate the effects of a shortage of critical REMs in defense systems and components. Bringing together information previously available only from disparate journal articles and databases, Rare Earth Materials: Properties and Applications describes the unique characteristics and applications of 17 REMs. It defines their chemical, electrical, thermal, and optical characteristics. Maintaining a focus on physical and chemical properties, it addresses the history and critical issues pertaining to mining and processing of REMs. In this book, Dr. A.R. Jha continues his distinguished track record of distilling complex theoretical physical concepts into an understandable technical framework that can be extended to practical applications across commercial and industrial frameworks. He summarizes the chemical, optical, electrical, thermal, magnetic, and spectroscopic properties of REMs best suited for next-generation commercial and military systems or equipment. Coverage includes extraction, recycling, refinement, visual inspection, identification of spectroscopic parameters, quality control, element separation based on specific application, pricing control, and environmental / geo-political considerations. Potential applications are identified with an emphasis on scientific instruments, nuclear resonance imaging equipment, MRI systems, magnetic couplers for uranium enrichment equipment, battery-electrodes, electric motors, electric generators, underwater sensors, and commercial and military sensors. The book describes unique applications of rare earth magnets in all-electric and hybrid electric cars and microwave components. It also considers the use of rare earth magnets in commercial and military systems where weight and size are the critical design requirements. Suitable for both students and design engineers involved in the development of high-technology components or systems, the book concludes by summarizing future applications in electro-optic systems and components, including infrared lasers, diode-pumped solid-state lasers operating at room temperatures, and other sophisticated military and commercial test equipment

The aim and purpose of this book is to provide an understanding of the current science underpinning Carbon Capture and Sequestration (CCS) and to provide students and interested researchers with sufficient background on the basics of chemical engineering, material science, and geology that they can understand the current state of the art of the research in the field of CCS. In addition, the book provides a comprehensive discussion of the impact on CCS on the energy landscape, society, and climate as these topics govern the success of the science being done in this field. The book is aimed at undergraduate students, graduate students, scientists, and professionals who would like to gain a broad multidisciplinary view of the research that is being carried out to solve one of biggest challenges of our generation.

Carbon-carbon and carbon-heteroatom bond-forming reactions are the backbone of synthetic organic chemistry. Scientists are constantly developing and improving these techniques in order to maximize the diversity of synthetically available molecules. These techniques must be developed in a sustainable manner in order to limit their environmental impact. This book highlights green bond forming reactions for bioactive scaffolds.

Fulfilling the need for a classical approach, Experimental Combustion: An Introduction begins with an overview of the key aspects of combustion including chemical kinetics, premixed flame, diffusion flame, and liquid droplet combustion followed by a discussion of the general elements of measurement systems and data acquisition and analysis. In addition to these aspects, thermal flow measurements, gas composition measurements, and optical combustion diagnostics are covered extensively.

Building upon this foundation in the fundamentals, the text addresses measurements, instruments, analyses, and diagnostics specific to combustion experiments, as well as:

• Describes the construction, working principles, application areas, and limitations of the necessary instruments for combustion systems
• Familiarizes the reader with the procedure for uncertainty analysis in combustion experiments
• Discusses advanced optical techniques, namely particle image velocimetry (PIV), laser Doppler anemometry (LDA), and planar laser-induced fluorescence (PLIF) methods

From stoichiometry to smoke meters and statistical analysis, Experimental Combustion: An Introduction provides a solid understanding of the underlying concepts and measurement tools required for the execution and interpretation of practical combustion experiments."

The aim and purpose of this book is to provide an understanding of the current science underpinning Carbon Capture and Sequestration (CCS) and to provide students and interested researchers with sufficient background on the basics of chemical engineering, material science, and geology that they can understand the current state of the art of the research in the field of CCS. In addition, the book provides a comprehensive discussion of the impact on CCS on the energy landscape, society, and climate as these topics govern the success of the science being done in this field. The book is aimed at undergraduate students, graduate students, scientists, and professionals who would like to gain a broad multidisciplinary view of the research that is being carried out to solve one of biggest challenges of our generation.

Used lubricating oil is a valuable resource. However, it must be re-refined mainly due to the accumulation of physical and chemical contaminants in the oil during service. Refining Used Lubricating Oils describes the properties of used lubricating oils and presents ways these materials can be re-refined and converted into useful lubricants as well as other products. It provides an up-to-date review of most of the processes for used lubricating oil refining that have been proposed or implemented in different parts of the world, and addresses feasibility and criteria for selecting a particular process. The book begins with an overview of lubricating oil manufacturing, both petroleum-based and synthetic-based. It reviews the types and properties of lubricating oils and discusses the characteristics and potential of used lubricating oils. The authors describe the basic steps of used oil treatment including dehydration, distillation or solvent extraction, and finishing. They explore the combustion of used oil for use as fuel, covering chemistry and equipment, fuel oil properties, and combustion emissions. The book considers alternative processing options such as refinery processing and re-refining. It also reviews the major refining processes that have been suggested over the years for used oil. These include acid/clay, simple distillation, combinations of distillation and hydrogenation, solvent extraction, filtration, and coking processes. The book addresses economic, life cycle assessment, and other criteria for evaluating the attractiveness of an oil recycling project, examining various costs and presenting an economic evaluation method using an Excel spreadsheet that can be downloaded from the publisher's website. The book concludes with a chapter offering insights on how to choose the most suitable process technology.

This volume, Bioresponsive Polymers: Design and Application in Drug Delivery, focuses on recent advancements in bioresponsive polymers and their design, characterization, and applications in varied fields, such as drug delivery and gene delivery. It looks at several carriers for drug delivery and biological molecules using different bioresponsive polymers. To address the many difficulties in existing dosage forms, this book provides information on recent developments to overcome drawbacks of conventional forms of the drug delivery. The chapters cover most areas of bioresponsive polymers, starting with a basic introduction to bioresponsive polymers, followed by chapters on design, characterization, and mechanism of bioresponsive polymers; and applications of drug and gene delivery using bioresponsive polymers via oral, topical, nasal, ocular, and parenteral methods. The book also reviews recent advancements in bioresponsive polymers and advanced applications, such as engineering particulate moieties, biomedical applications, hydrogels as emerging therapy, and electrochemical responses, bioresponsive nanoparticles, and bioresponsive hydrogels.

This volume is part of a continuing series that provides authoritative reviews on recent developments and applications of well-established techniques in the field of electroanalytical chemistry. Each volume provides the necessary background and starting point for graduate students undertaking related research projects and is of special interest to practicing analytical chemists concerned with electroanalytical techniques. Volume 27 continues this tradition with innovative contributions from internationally respected scientists who highlight new technologies and trends in Protein Biosensing, Bipolar Electrochemistry, and X-ray Absorption Spectroscopy in Electrochemistry.

Hydrodynamic Cavitation A systematic introduction to critical technologies and applications of hydrodynamic cavitation In Hydrodynamic Cavitation: Devices, Design, and Applications, a distinguished team of researchers delivers an authoritative discussion of key aspects of hydrodynamic cavitation, including the design, characterization, and modeling of the devices. The book offers discussions of state-of-the-art applications of the technology, including the disinfection of water, wastewater treatment, biomass processing, and many other industrial applications. In addition to expansive case studies, the book provides an up-to-date exploration of emerging innovations and future applications of the technology. Readers will also find: A thorough introduction to hydrodynamic cavitation devices, including those based on axial and rotational flows An in-depth examination of the experimental characterization of cavitation devices and computational models Comprehensive explorations of the applications of hydrodynamic cavitation, including the disinfection of water and wastewater treatment Accessible discussions of industrial applications of hydrodynamic cavitation Perfect for chemical and process engineers, water chemists, mechanical engineers, and food chemists, Hydrodynamic Cavitation will also earn a place in the libraries of food and environmental technologists.

This book, Chemistry and Industrial Techniques for Chemical Engineers, brings together innovative research, new concepts, and novel developments in the application of new tools for chemical and materials engineers. It contains significant research, reporting new methodologies, and important applications in the fields of chemical engineering as well as the latest coverage of chemical databases and the development of new methods and efficient approaches for chemists. With clear explanations, real-world examples, this volume emphasizes the concepts essential to the practice of chemical science, engineering, and technology while introducing the newest innovations in the field.

A comprehensive overview and summary of recent achievements and the latest trends in bioinspired thermal materials. Following an introduction to different thermal materials and their effective heat transfer to other materials, the text discusses heat detection materials that are inspired by biological systems, such as fire beetles and butterflies. There then follow descriptions of materials with thermal management functionality, including those for evaporation and condensation, heat transfer and thermal insulation materials, as modeled on snake skins, polar bears and fire-resistant trees. A discussion of thermoresponsive materials with thermally switchable surfaces and controllable nanochannels as well as those with high thermal conductivity and piezoelectric sensors is rounded off by a look toward future trends in the bioinspired engineering of thermal materials. Straightforward and well structured, this is an essential reference for newcomers as well as experienced researchers in this exciting field.

In the process industry, shutdown and turnaround costs are responsible for an excessive amount of maintenance expenses. Process Plants: Shutdown and Turnaround Management explores various types of shutdowns, presents recommendations for better management, and offers feasible solutions to help reduce overheads. Because turnaround management is the largest maintenance activity, plant turnaround is the focal point of this text. The book details a plan to lengthen the interval between turnarounds, and curtail costs in process production management by at least 30 percent.

This practical guidebook provides a thorough study of shutdown management, discusses different types of shutdown and managing events (emergency, unplanned, planned, and turnaround), and covers all aspects of plant turnaround management including startup, shutdown, and maintenance. It describes the five phases of shutdown management initiating, planning, executing, controlling, and closing. It contains specific principles and precautions for successful shutdown planning, and highlights many aspects including turnaround philosophy, planning and scheduling, estimation, contractor management, execution, safety management, managing human resources, and post shut down review.

Process Plants: Shutdown and Turnaround Management also includes topical information that readers can successfully apply to future shutdown projects. It is suitable for industry professionals and graduate students."

This book follows the 2002 edition of Catalysis by Ceria and Related Materials, which was the first book entirely devoted to ceria and its catalytic properties. In the ten years since the first edition a massive amount of work has been carried out in the field, and ceria has gained a prominent position in catalysis as one of the most valuable material for several applications. This second edition covers fundamental and applied aspects of the latest advances in ceria-based materials with a special focus on structural, redox and catalytic features. Special emphasis is given to nano-engineered and nano-shaped systems which are a key factor in the predictive and rational design of ceria with novel properties.In addition, the book presents recent advances in emerging and traditional large-scale applications of ceria in catalysis, such as the treatment of emissions from mobile sources (including diesel and gasoline engines). The primary readership includes catalysis and material science researchers from academy and industry and postdoctorate and graduate students in chemistry, chemical engineering and physics.

Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion, Volume 45, gives an overview of the different steps involved in the development and application of detailed kinetic mechanisms, mainly relating to pyrolysis and combustion processes. The book is divided into two parts that cover the chemistry and kinetic models and then the numerical and statistical methods. It offers a comprehensive coverage of the theory and tools needed, along with the steps necessary for practical and industrial applications.

This review volume, co-edited by Nobel laureate G Ertl, provides a broad overview on current studies in the understanding of design and control of complex chemical systems of various origins, on scales ranging from single molecules and nano-phenomena to macroscopic chemical reactors. Self-organizational behavior and the emergence of coherent collective dynamics in reaction diffusion systems, reactive soft matter and chemical networks are covered. Special attention is paid to the applications in molecular cell biology and to the problems of biological evolution, synthetic biology and design of artificial living cells. Starting with a detailed introduction on the history of research on complex chemical systems, its current state of the art and perspectives, the book comprises 19 chapters that survey the current progress in particular research fields. The reviews, prepared by leading international experts, yield together a fascinating picture of a rapidly developing research discipline that brings chemical engineering to new frontiers.

This book presents the latest findings on amino acid fermentation and reviews the 50-year history of their development. The book is divided into four parts, the first of which presents a review of amino acid fermentation, past and present. The second part highlights selected examples of amino acid fermentation in more detail, while the third focuses on recent advanced technologies. The last part introduces readers to several topics for future research directions in amino acid production systems. A new field, "amino acid fermentation", was created by the progress of academic research and industrial development. In 1908, the Japanese researcher Kikunae Ikeda discovered glutamate as an Umami substance. Then a new seasoning, MSG (monosodium glutamate), was commercialized. Although glutamate was extracted from the hydro-lysate of wheat or soybean in the early days, a new production method was subsequently invented - "fermentation" - in which glutamate is produced from sugars such as glucose by a certain bacterium called Corynebacterium. The topic of this volume is particularly connected in a significant way with biochemical, biotechnological, and microbial fields. Both professionals in industry and an academic audience will understand the importance of this volume.

Combustion technology has traditionally been dominated by air/fuel combustion. However, two developments have increased the significance of oxygen-enhanced combustion new technologies that produce oxygen less expensively and the increased importance of environmental regulations. Advantages of oxygen-enhanced combustion include less pollutant emissions as well as increased energy efficiency and productivity. Oxygen-Enhanced Combustion, Second Edition compiles information about using oxygen to enhance industrial heating and melting processes. It integrates fundamental principles, applications, and equipment design in one volume, making it a unique resource for specialists implementing the use of oxygen in combustion systems.

This second edition of the bestselling book has more than doubled in size. Extensively updated and expanded, it covers significant advances in the technology that have occurred since the publication of the first edition.

What s New in This Edition

• Expanded from 11 chapters to 30, with most of the existing chapters revised
• A broader view of oxygen-enhanced combustion, with more than 50 contributors from over 20 organizations around the world
• More coverage of fundamentals, including fluid flow, heat transfer, noise, flame impingement, CFD modeling, soot formation, burner design, and burner testing
• New chapters on applications such as flameless combustion, steel reheating, iron production, cement production, power generation, fluidized bed combustion, chemicals and petrochemicals, and diesel engines

This book offers a unified, up-to-date look at important commercialized uses of oxygen-enhanced combustion in a wide range of industries. It brings together the latest knowledge to assist those researching, engineering, and implementing combustion in power plants, engines, and other applications."

Micro MBA focuses on accounting, economics, marketing, human resources, operations, finance and gives the "core" curriculum of subjects usually present in an MBA program. This book presents the key concepts to all those pursuing a managerial career in the technological and engineering industry on principles, strategies, models, techniques, methodologies and applications in the business area for non-economists.

In the past two decades, the field of nanoporous materials has undergone significant developments. As these materials possess high specific surface areas, well-defined pore sizes, and functional sites, they show a great diversity of applications such as molecular adsorption/storage and separation, sensing, catalysis, energy storage and conversion, drug delivery, and more. Nanoporous Materials: Synthesis and Applications surveys the key developments in the synthesis of nanoporous materials in a broad range from soft porous materials-such as porous organic and metal-organic frameworks-to hard porous materials, such as porous metals and metal oxides, and the significant advances in their applications to date. Topics Include: Synthetic approaches, characterization techniques, and applications of a variety of meso- and microporous polymers and organic frameworks Advances in the synthetic control of structures along with the function exploration of this new class of organic porous materials Synthesis and applications of nanoporous metal-organic frameworks, mesoporous silica, and nanoporous glass Synthesis of mesoporous carbons by a soft- and hard-templating method and their applications for supercapacitors and membrane separations Fabrication of nanoporous semiconductor materials Structural modification and functional improvement of layered zeolites Germanates and related materials with open-frameworks

This book covers a collection of topics that reflect the diversity of modern trends in chemistry and chemical engineering. It presents leading-edge research from some of the brightest and most well known scientists from around the world. Contributions range from new methods to novel applications of existing methods to give readers an understanding of the material and/or structural behavior of new and advanced systems. The book offers a broad scope of new research for academics, researchers, and engineering professionals, which has potential for applications in several disciplines of engineering and science. Topics include: Time evolution of the electronegativity and its various scales and the interrelationship between electronegativity and other periodic parameters The starch nanocomposite and nanoparticles and its biomedical applications The lamination of nanofiber at different temperatures Electrospinning of chitosan (CHT) and how it can be improved by the addition of synthetic materials including carbon nanotubes (CNTs) Smart nanofibers based on nylon 6,6/polyethylene glycol blend Nano-biocomposites with chitosan matrix and carbon nanotubes (CNTs) Polypyrrole-coated polyacrylonitrile electrospun nanofibers Semi-empirical AM-1 studies on porphyrin, which include global reactivity parameters, local reactivity parameters, and atomic charge

A proper understanding of diffusion and mass transfer theory is critical for obtaining correct solutions to many transport problems. Diffusion and Mass Transfer presents a comprehensive summary of the theoretical aspects of diffusion and mass transfer and applies that theory to obtain detailed solutions for a large number of important problems. Particular attention is paid to various aspects of polymer behavior, including polymer diffusion, sorption in polymers, and volumetric behavior of polymer-solvent systems. The book first covers the five elements necessary to formulate and solve mass transfer problems, that is, conservation laws and field equations, boundary conditions, constitutive equations, parameters in constitutive equations, and mathematical methods that can be used to solve the partial differential equations commonly encountered in mass transfer problems. Jump balances, Green's function solution methods, and the free-volume theory for the prediction of self-diffusion coefficients for polymer-solvent systems are among the topics covered. The authors then use those elements to analyze a wide variety of mass transfer problems, including bubble dissolution, polymer sorption and desorption, dispersion, impurity migration in plastic containers, and utilization of polymers in drug delivery. The text offers detailed solutions, along with some theoretical aspects, for numerous processes including viscoelastic diffusion, moving boundary problems, diffusion and reaction, membrane transport, wave behavior, sedimentation, drying of polymer films, and chromatography. Presenting diffusion and mass transfer from both engineering and fundamental science perspectives, this book can be used as a text for a graduate-level course as well as a reference text for research in diffusion and mass transfer. The book includes mass transfer effects in polymers, which are very important in many industrial processes. The attention given to the proper setup of numerous problems along with the explanations and use of mathematical solution methods will help readers in properly analyzing mass transfer problems.

1 Automatisierung von Vakuumbeschichtungsanlagen.- 1.1 Vorbemerkungen.- 1.2 Steuerungssysteme.- 1.3 Materialfluss.- 1.3.1 Batch-Anlagen.- 1.3.2 Durchlauf-Anlagen (in-line-Anlagen).- 1.3.3 Cluster-Anlagen.- 1.3.4 Bandanlagen.- 1.4 Automatisierung von Teilsystemen.- 1.4.1 Pumpsatz-Steuerungen.- 1.4.2 Druckregelungen.- 1.4.2.1 Druckregelung durch Saugvermoegen.- 1.4.2.2 Druckregelung durch Gasfluss.- 1.4.3 Substrattransport.- 1.4.4 Substrattemperatur.- 1.4.4.1 Heizeinrichtungen.- 1.4.4.2 Messen und Regeln der Substrattemperatur.- 1.4.5 Automatisierung von Verdampfern.- 1.4.5.1 Widerstands-Verdampfer.- 1.4.5.2 Induktive Verdampfer.- 1.4.5.3 Elektronenstrahl-Verdampfer.- 1.4.6 Automatisierung von Sputterprozessen.- 1.4.6.1 Gleichstrom-Sputtern.- 1.4.6.2 Hochfrequenz-Sputtern.- 1.4.6.3 Magnetfeld-Verstellung.- 1.4.6.4 Plasma-Erkennung.- 1.4.7 Schichtdicke und Rate.- 1.4.7.1 Schichtdickenregelung.- 1.4.7.2 Abschalt-Kriterien.- 1.4.7.3 Ratenregelung.- 1.4.8 Reaktivprozesse.- 1.5 Beispiele fur die Automatisierung von Beschichtungsprozessen.- 1.5.1 Prozesssteuerung fur Aufdampfanlagen.- 1.5.2 Prozesssteuerung fur Sputter-Durchlauf-Anlagen.- 1.5.3 Automatisierung von CVD-Anlagen.- 2 Messungen an Dunnen Schichten wahrend des Beschichtungsprozesses.- 2.1 Bestimmung der Schichtdicke durch Widerstandsmessung.- 2.2 Ratenmessung durch Teilchen-Ionisierung und -Anregung.- 2.2.1 UEberblick.- 2.2.2 Ionensonde.- 2.2.3 Massenspektrometer.- 2.2.4 EIES.- 2.3 Schichtdicken und Aufdampfratemessung mit Schwingquarz.- 2.3.1 Einleitung und Ruckblick.- 2.3.1.1 Frequenz-Messmethode.- 2.3.1.2 Periodenzeit-Messmethode.- 2.3.1.3 Z-Match(R)-Verfahren.- 2.3.1.4 Zweifrequenz-oder Auto-Z-Match(R)-Verfahren.- 2.3.2 Sensor-Kennlinie (Massenempfindlichkeit).- 2.3.3 Grenzen der Genauigkeit und des Verwendungsbereichs.- 2.3.3.1 Einfluss des angewandten Verfahrens.- 2.3.3.2 Einfluss der Materialdichte.- 2.3.3.3 Schicht-Relaxation.- 2.3.3.4 Auswirkung intrinsischer Schichtspannungen.- 2.3.3.5 Temperatureinfluss.- 2.3.3.5.1 Frequenz-Temperaturkennlinie des Quarzes.- 2.3.3.5.2 Frequenz-Temperaturkennlinie des vollstandigen Messkopfes.- 2.3.3.6 Auftreten und Ursachen von Frequenzsprungen.- 2.3.3.6.1 Grenzschicht Quarz-Elektrode.- 2.3.3.6.2 Kopplung mit Nebenmoden.- 2.3.3.7 Anzeige der Messquarz-Restverwendungsdauer.- 2.3.3.7.1 Warnung bei Erreichen einer bestimmten Frequenzanderung.- 2.3.3.7.2 Dampfungs-bzw. materialabhangige Anzeige der Restverwendungsdauer.- 2.3.4 Schlussfolgerung und Zusammenfassung.- 2.4 Optische Messverfahren.- 2.4.1 Eilipsometer.- 2.4.2 Optische Prozesstechnik.- 2.4.2.1 Vorbemerkungen.- 2.4.2.2 Systematik der optischen Schichtdickenmessung.- 2.4.2.3 Monochromatische optische Schichtdickenmessung.- 2.4.2.3.1 Triggerpunktabschaltung/Extremwertabschaltung.- 2.4.2.3.2 Fehlerkompensation der direkten Messmethode bei Extremwertabschaltungen von ?/4-Schichtsystemen.- 2.4.2.3.3 Triggerpunktabschaltung mit On-Line-Korrektur.- 2.4.2.3.4 Probleme bei der Umsetzung der monochromatischen Schichtdickenmessung in die Praxis.- 2.4.2.3.5 Prozessfotometer fur die monochromatische optische Schichtdickenmessung.- 2.4.2.4 Breitbandige optische Schichtdickenmessung/ On-line-Nachoptimierung.- 2.4.3 Beispiele fur die Berechnung und Realisierung von Systemen aus dunnen Schichten.- 2.4.3.1 Matrixmethode zur Berechnung optischer Schichtsysteme.- 2.4.3.2 Eigenschaften einer Einfachschicht.- 2.4.3.3 Symmetrische Schichtsysteme.- 2.4.3.4 Schichtsysteme aus ?/4-und ?/2-Schichten.- 2.4.3.5 Rechnerunterstutzter Entwurf von Schichtsystemen.- 2.5 Schichtdickenbestimmung durch Wagung im Vakuum.- 2.6 Bestimmung der Schichtdicke und der Schichtzusammensetzung durch Roentgenemission und Roentgenfluoreszenz.- 2.7 Atomemissionsspektroskopie.- 3 Messungen an dunnen Schichten nach beendetem Beschichtungsprozess.- 3.1 Messung der thermischen Leitfahigkeit.- 3.1.1 Allgemeines.- 3.1.2 Experimentelle Bestimmung.- 3.2 Elektrische Leitfahigkeit.- 3.2.1 Definition.- 3.2.2 Bestimmungs

Optimal Control for Chemical Engineers gives a detailed treatment of optimal control theory that enables readers to formulate and solve optimal control problems. With a strong emphasis on problem solving, the book provides all the necessary mathematical analyses and derivations of important results, including multiplier theorems and Pontryagin's principle. The text begins by introducing various examples of optimal control, such as batch distillation and chemotherapy, and the basic concepts of optimal control, including functionals and differentials. It then analyzes the notion of optimality, describes the ubiquitous Lagrange multipliers, and presents the celebrated Pontryagin principle of optimal control. Building on this foundation, the author examines different types of optimal control problems as well as the required conditions for optimality. He also describes important numerical methods and computational algorithms for solving a wide range of optimal control problems, including periodic processes. Through its lucid development of optimal control theory and computational algorithms, this self-contained book shows readers how to solve a variety of optimal control problems.

Photoresponsive polymers that can be manipulated with specific frequency of light Designing of polymers for vibration damping Smart manipulations of hydrophic and superhydrophobic polymers Biopolymers including hydrogel for smart application, drug delivery etc. Smart paints Self-healing and shape memory polymers Holography for data storage Phase change polymers and solid polymer electrolyte for thermal and electrochemical energy Molecularly imprinting polymers for sub ppm sensing and removal of undesired materials Smart textile covering the concept of advanced textiles