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This book delves into the realm of Chemical Reaction Engineering (CRE) by showcasing the practical application of multiple-reaction stoichiometry. The authors critically assess various approaches commonly taught in undergraduate CRE courses to establish the relationships between changes in chemical species. In doing so, they propose an innovative conceptual alternative that is specifically tailored for undergraduate lectures. The book carefully selects measures of composition that effectively harness the power of stoichiometric relationships in elementary reacting systems and models, which are typically covered in these courses. Going beyond the basics, it also offers a profound discussion on the value of chemical stoichiometry for tackling more intricate reaction systems and detailed models. .

Chemical engineering. --- Chemical Engineering. --- Chemical Process Engineering.

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"Reading the book, you can feel the long practical experience of the author. The text is easy to read, even where concepts can be complex. The strong theoretical background of the author is well known from other publications. In this book, however, the topics are presented on a level that every engineer and scientist in the chemical industry and process industry should know and can understand. This book would have been very helpful at the beginning of my career to close the addressed gap. Therefore, I can strongly recommend it not only to all students close to their degree, but also to engineers and scientists just starting their industrial career in the related industrial sectors that are subsumed under the term process industry (chemical or petrochemical industry, pharmaceutical industry, food industry, biochemical industry, environmental technology, etc.). The book is like an investment. Doing a better job and getting a better job evaluation might pay for the book …" Prof. Dr.-Ing. Claus Fleischer, Frankfurt University of Applied Sciences Process Engineering is based on almost 30 years of practical experience of the author in process simulation, design and development. The book is a missing link between students and practitioners. The author has coached many graduates in their first months and knows what the typical questions are. Coming from the university, graduates often do not know which relevance their knowledge has and how to apply it in real life, whereas established practitioners often stick to the narrow way of their experience, forgetting that science continuously makes progress. There is a gap to be bridged. From his own professional experience, the author covers many topics of the process engineering business, but three guest contributions are a valuable supplement to the content of the third edition. Already in the 2nd edition, Verena Haas from BASF SE wrote an excellent chapter on dynamic process simulation. For the new 3rd edition, Gökce Adali and Michael Benje added two chapters on digitalization and patents, respectively. Preparing the reader for the everyday business!

Chemical industry. --- Pharmaceutical industry. --- Chemical engineering. --- Chemical Engineering. --- Chemical Industry. --- Chemical Process Engineering. --- Industrial Chemistry.

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This textbook introduces readers to a comprehensive framework for the application of deterministic optimization strategies in the field of chemical processes, with a strong emphasis on sustainability. The book establishes a vital connection between fundamental deterministic optimization principles, optimization tools, and real-world application instances, all within the context of environmentally responsible practices. The approach put forth in this book is exceptionally versatile, allowing for the use of many optimization software and deterministic techniques. Contained in the book are many fundamental optimization concepts, encompassing linear programming, nonlinear programming, integer programming, and multi-objective optimization, all tailored to promote sustainable decision-making. Furthermore, the book provides practical examples illustrating the application of these techniques within sustainable chemical processes as tutorials. The textbook also explores the utilization of popular optimization software platforms such as GAMS, MATLAB, and Python, demonstrating how these tools can be leveraged for eco-friendly process optimization. Through this comprehensive framework, readers can not only acquire the skills needed to optimize a wide range of processes but also learn how to do so with sustainability at the forefront of their considerations. This approach streamlines the optimization process, eliminating unnecessary complications along the way and ensuring that environmental and ethical considerations are integral to the decision-making process.

Chemical engineering. --- Computer simulation. --- Chemistry, Organic. --- Mathematical optimization. --- Biochemical engineering. --- Sustainability. --- Chemical Process Engineering. --- Computer Modelling. --- Organic Chemistry. --- Optimization. --- Bioprocess Engineering.

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Aimed at students and professionals, this book provides an overview of the science and technology of the downstream sector of the oil and gas industry. Topics include the refining of crude oil and other feedstocks – including renewables – into fuels and lubricants. They also describe the conversion of simple chemicals into solvents, polymers, fibers, rubbers, coatings, and myriad other products, including pharmaceuticals. In addition to drawing on the authors' previous books, it includes teaching material from several courses. These include workshops provided for top refining companies and a highly rated course taught at the Florida A&M University/Florida State University (USA).

Chemistry, Technical. --- Physical chemistry. --- Chemical engineering. --- Production engineering. --- Chemicals --- Industrial Chemistry. --- Physical Chemistry. --- Chemical Engineering. --- Chemical Process Engineering. --- Process Engineering. --- Chemical Safety. --- Safety measures.

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The book tells the story of the coal gasification technology from its early days 230 years ago to the present. Before the end of WWII, gasification had been extensively used to produce both fuel gas and gaseous feedstock from coal. But things have changed when natural gas became readily available, and coal gasification received little attention, especially in recent years when the trend is to move away from fossil energy. Compared to conventional coal combustion, gasification-based processes for power production typically result in much lower emissions of pollutants. So, coal gasification technology became relevant again during the transition of energy production to cleaner sources, in an effort to fight climate change. Taking another look at gasification technology to better understand its potential benefits including carbon capture and management and use the process, seems to make sense during the challenging time of the transition of energy production. Professionals and policy makers in the energy field will benefit from this writing.

Production engineering. --- Chemical engineering. --- Electric power production. --- Cogeneration of electric power and heat. --- Fossil fuels. --- Process Engineering. --- Chemical Process Engineering. --- Thermal Process Engineering. --- Mechanical Power Engineering. --- Fossil Fuel.