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Optical Chemical Sensors
This book covers optical chemical sensing by means of optical waveguides, from the fundamentals to the most recent applications. The book includes a historical review of the development of these sensors, from the earliest laboratory prototypes to the first commercial instrumentations. The book reprints a lecture by the Nobel Laureate Charles Townes on the birth of maser and laser, which lucidly illustrates the development of new science and new technology.
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Chemical Reactor Modeling
Chemical Reactor Modeling closes the gap between Chemical Reaction Engineering and Fluid Mechanics. The second edition consists of two volumes:Volume 1: Fundamentals.Volume 2: Chemical Engineering ApplicationsIn volume 1 most of the fundamental theory is presented. A few numerical model simulation application examples are given to elucidate the link between theory and applications. In volume 2 the chemical reactor equipment to be modeled are described. Several engineering models are introduced and discussed. A survey of the frequently used numerical methods, algorithms and schemes is provided. A few practical engineering applications of the modeling tools are presented and discussed. The working principles of several experimental techniques employed in order to get data for model validation are outlined. The monograph is based on lectures regularly taught in the fourth and fifth years graduate courses in transport phenomena and chemical reactor modeling and in a post graduate course in modern reactor modeling at the Norwegian University of Science and Technology, Department of Chemical Engineering, Trondheim, Norway. The objective of the book is to present the fundamentals of the single-fluid and multi-fluid models for the analysis of single and multiphase reactive flows in chemical reactors with a chemical reactor engineering rather than mathematical bias. Organized into 13 chapters, it combines theoretical aspects and practical applications and covers some of the recent research in several areas of chemical reactor engineering. This book contains a survey of the modern literature in the field of chemical reactor modeling.
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The Chemical Element
In the International Year of Chemistry, prominent scientists highlight the major advances in the fight against the largest problems faced by humanity from the point of view of chemistry, showing how their science is essential to ensuring our long-term survival. Following the UN Millennium Development Goals, the authors examine the ten most critical areas, including energy, climate, food, water and health. All of them are opinion leaders in their fields, or high-ranking decision makers in national and international institutions. Intended to provide an intellectual basis for the future development of chemistry, this book is aimed at a wide readership including students, professionals, engineers, scientists, environmentalists and anyone interested in a more sustainable future.
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Regulating Chemical Risks
This volume presents research on current trends in chemical regulations – a fa- growing, complex, and increasingly internationalized field. The book grew out from a multidisciplinary research project entitled ‘Regulating Chemical Risks in the Baltic Sea Area: Science, Politics, and the Media’, led by Michael Gilek at Södertörn University, Sweden. This research project involved scholars and experts from natural as well as social sciences, based at Södertörn University, Swedish Royal Institute of Technology (KTH), Karolinska Institutet, and Umeå University. The project group organized a multidisciplinary research conference on chemical risk regulations, held in Stockholm, August 15–17, 2007. Most of the contributions published in this book were, in draft form, first presented at this conference. The conference, like the ensuing edited volume, expanded the geographical focus beyond the Baltic Sea area to include wider European, and to some extent also global trends. Many thanks to all project colleagues and conference participants! We are very grateful for the generous financial support received from The Foundation for Baltic and East European Studies (Östersjöstiftelsen), The Swedish Research Council Formas, and from Södertörn University. Without this support the present book would not have been possible. Special thanks to all of our fellow contributors, all of whom have submitted to- cal papers based on high-quality research. Many thanks also to Tobias Evers, who assisted us with technical editing. Finally, we are grateful for the professionalism shown by our editors at Springer.
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What is chemical formula language?
Chemical formula language is a system of representing chemical compounds using symbols and numbers to indicate the types and numbers of atoms present in a molecule. It provides a concise and standardized way to communicate the composition of a substance. The symbols represent the elements present, and the numbers indicate the ratio of atoms in the compound. This language is essential for chemists to accurately convey the structure and composition of substances in a clear and concise manner.
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How can one forget culture and heritage?
One can forget culture and heritage by not actively engaging with it, by being disconnected from one's roots and community, and by prioritizing other aspects of life over preserving and celebrating one's cultural identity. This can happen through assimilation into a different culture, lack of exposure to one's own cultural traditions and practices, and a lack of interest in learning about one's heritage. Additionally, societal pressures and discrimination can also contribute to the erasure of one's culture and heritage.
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How do you pronounce Na2He in German chemical language?
In German chemical language, Na2He would be pronounced as "Natrium-He-lium." The "Na" represents the element sodium (Natrium in German), and the "He" represents the element helium (Helium in German). The subscript numbers indicate the number of atoms of each element in the compound.
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Could you please provide some tasks on chemical formula language?
Sure! Here are some tasks on chemical formula language: 1. Write the chemical formula for the compound formed between calcium and chlorine. 2. Determine the number of atoms of each element in the chemical formula C6H12O6. 3. Balance the chemical equation for the reaction between hydrogen and oxygen to form water. 4. Write the chemical formula for the compound formed between aluminum and sulfur. 5. Calculate the molar mass of the compound with the chemical formula NaCl.
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Chemical Reactor Design
A guide to the technical and calculation problems of chemical reactor analysis, scale-up, catalytic and biochemical reactor design Chemical Reactor Design offers a guide to the myriad aspects of reactor design including the use of numerical methods for solving engineering problems. The author - a noted expert on the topic - explores the use of transfer functions to study residence time distributions, convolution and deconvolution curves for reactor characterization, forced-unsteady-state-operation, scale-up of chemical reactors, industrial catalysis, design of multiphasic reactors, biochemical reactors design, as well as the design of multiphase gas-liquid-solid reactors. Chemical Reactor Design contains several examples of calculations and it gives special emphasis on the numerical solutions of differential equations by using the finite differences approximation, which offers the background information for understanding other more complex methods. The book is designed for the chemical engineering academic community and includes case studies on mathematical modeling by using of MatLab software. This important book: - Offers an up-to-date insight into the most important developments in the field of chemical, catalytic, and biochemical reactor engineering - Contains new aspects such as the use of numerical methods for solving engineering problems, transfer functions to study residence time distributions, and more - Includes illustrative case studies on MatLab approach, with emphasis on numerical solution of differential equations using the finite differences approximation Written for chemical engineers, mechanical engineers, chemists in industry, complex chemists, bioengineers, and process engineers, Chemical Reactor Design addresses the technical and calculation problems of chemical reactor analysis, scale-up, as well as catalytic and biochemical reactor design.
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Chemical Kinetics and Reaction Dynamics
Chemical Kinetics and Reaction Dynamics brings together the major facts and theories relating to the rates with which chemical reactions occur from both the macroscopic and microscopic point of view. This book helps the reader achieve a thorough understanding of the principles of chemical kinetics and includes: Detailed stereochemical discussions of reaction steps Classical theory based calculations of state-to-state rate constants A collection of matters on kinetics of various special reactions such as micellar catalysis, phase transfer catalysis, inhibition processes, oscillatory reactions, solid-state reactions, and polymerization reactions at a single source. The growth of the chemical industry greatly depends on the application of chemical kinetics, catalysts and catalytic processes. This volume is therefore an invaluable resource for all academics, industrial researchers and students interested in kinetics, molecular reaction dynamics, and the mechanisms of chemical reactions.
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Practical Aspects of Chemical Engineering
This book focuses on Chemical Engineering and Processing, covering interdisciplinary innovation technologies and sciences closely related to chemical engineering, such as computer image analysis, modelling and IT. The book presents interdisciplinary aspects of chemical and biochemical engineering interconnected with process system engineering, process safety and computer science.
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Chemical Thermodynamics for Process Simulation
The only textbook that applies thermodynamics to real-world process engineering problems This must-read for advanced students and professionals alike is the first book to demonstrate how chemical thermodynamics work in the real world by applying them to actual engineering examples. It also discusses the advantages and disadvantages of the particular models and procedures, and explains the most important models that are applied in process industry. All the topics are illustrated with examples that are closely related to practical process simulation problems. At the end of each chapter, additional calculation examples are given to enable readers to extend their comprehension. Chemical Thermodynamics for Process Simulation instructs on the behavior of fluids for pure fluids, describing the main types of equations of state and their abilities. It discusses the various quantities of interest in process simulation, their correlation, and prediction in detail. Chapters look at the important terms for the description of the thermodynamics of mixtures; the most important models and routes for phase equilibrium calculation; models which are applicable to a wide variety of non-electrolyte systems; membrane processes; polymer thermodynamics; enthalpy of reaction; chemical equilibria, and more. -Explains thermodynamic fundamentals used in process simulation with solved examples -Includes new chapters about modern measurement techniques, retrograde condensation, and simultaneous description of chemical equilibrium -Comprises numerous solved examples, which simplify the understanding of the often complex calculation procedures, and discusses advantages and disadvantages of models and procedures -Includes estimation methods for thermophysical properties and phase equilibria thermodynamics of alternative separation processes -Supplemented with MathCAD-sheets and DDBST programs for readers to reproduce the examples Chemical Thermodynamics for Process Simulation is an ideal resource for those working in the fields of process development, process synthesis, or process optimization, and an excellent book for students in the engineering sciences.
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What is better, chemical technician or chemical laboratory assistant?
The choice between a chemical technician and a chemical laboratory assistant ultimately depends on individual preferences and career goals. A chemical technician typically has more responsibilities and may be involved in research, development, and analysis of chemicals and materials. On the other hand, a chemical laboratory assistant may have more of a supportive role, assisting with experiments, maintaining equipment, and preparing samples. Both roles are important in the field of chemistry, and the decision of which is better would depend on one's interests and career aspirations.
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What is the chemical equation for chemical reaction 29?
The chemical equation for chemical reaction 29 is: 2H2 + O2 -> 2H2O This equation represents the reaction between hydrogen gas (H2) and oxygen gas (O2) to form water (H2O). This is a combustion reaction, where the hydrogen and oxygen combine to produce water and release energy in the form of heat and light.
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Chemical or physical?
Chemical changes involve the formation of new substances with different chemical properties, while physical changes only affect the physical state or appearance of a substance without changing its chemical composition. Examples of chemical changes include burning wood to produce ash and smoke, while examples of physical changes include melting ice into water or crushing a can. Both types of changes are important in understanding the behavior of matter and can be observed in various everyday phenomena.
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Where does one earn more: chemical laboratory technician or chemical technician?
The salary for a chemical laboratory technician and a chemical technician can vary depending on factors such as location, experience, and education. However, in general, a chemical technician typically earns more than a chemical laboratory technician. This is because chemical technicians are often involved in more complex tasks such as research, development, and production, which can command a higher salary compared to the more routine tasks performed by chemical laboratory technicians. Additionally, chemical technicians may have more specialized skills and knowledge, which can also contribute to higher earning potential.
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