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Chemical Reaction Engineering
Follow step-by-step explanations to understand mathematical models – algebraic and differential equations – of chemical reactors and how numerical models workin computer implementation. Learn the basics behind current user-friendly tools in numerical simulation and optimization of reactor systems (Python, Matlab, Julia and gPROMS). Discover how to select the right algorithm for specific reactor models from homogenous to multiphase systems and structured reactors in detailed discussions at the end of each chapter. In this second edition, 20 solved example simulations performed in MATLAB and Python are included for demonstration purposes.
Tubular Heat Exchangers
This book explains basics from physical chemistry and fl uid mechanics to understand, construct and apply tubular heat exchangers for the (chemical) industry. Examples from practice highlight the required equations, physical properties and raise critical steps for the design of for example tubular double-pipe, multi-tubes and fi nned heat exchangers. Exercises and corresponding solutions deepen the gained knowledge and clarify the described theory.
Sonochemistry
In the 1980’s sonochemistry was considered to be a rather restricted branch of chemistry involving the ways in which ultrasound could improve synthetic procedures, predominantly in heterogeneous systems and particularly for organometallic reactions. Within a few years the subject began to expand into other disciplines including food technology, environmental protection and the extraction of natural materials. Scientific interest grew and led to the formation of the European Society of Sonochemistry in 1990 and the launch of a new journal Ultrasonics Sonochemistry in 1994. The subject continues to develop as an exciting and multi-disciplinary science with the participation of not only chemi...
Multiphase Reactors
This Multiphase Reactors book is about fundamentals, selection, design, development (scale-up) and applications of two- and three-phase reactors. It is a graduate textbook focused on creating understanding of the fundamentals, as much as possible without resorting to mathematics. It also is full of real-life industrial applications and examples from the authors’ own experiences. The target audience comprises students and industrial practitioners who may or may not have had formal training in chemical reaction engineering. Each chapter explains the subject and contains take home messages, examples, worked out cases, quiz questions, and exercises.
Transport Phenomena Data Companion
Many data needed for problem solving in Chemical Engineering are dispersed over the literature. Also, various systems of units are used, often forcing the user to do tedious conversions before a ‘quick calculation’ can be done. In this companion the authors have compiled those data frequently used in transport phenomena and related subjects. Since all data are in S.I. units a rapid access to various calculations is facilitated. This compendium consists of four parts. The first part provides general information varying from heuristics for quick estimations to S.I. units and their conversions. The second part consists of frequently used mathematics. In addition to general techniques, it co...
Industrial Chemistry
Industrial Chemistry examines the chemical processes performed in industry and looks at how they affect our livesby discussing the by-products, pollution/ waste generation, and attempts at making processes more ecologically friendly, or “greener”. The author establishes connections between basic chemistry and the chemical processes that are used in real life. This 2nd Edition includes expanded and revised chapters, e.g. on fuel production.
Sustainable Process Engineering
Sustainable process engineering is a methodology to design new and redesign existing processes that follow the principles of green chemistry and green engineering, and ultimately contribute to a sustainable development. The newest achievements of chemical engineering, opened new opportunities to design more efficient, safe, compact and environmentally benign chemical processes. The book provides a guide to sustainable process design applicable in various industrial fields. • Discusses the topic from a wide angle: chemistry, materials, processes, and equipment. • Includes state-of-the-art research achievements that are yet to be industrially implemented. • Transfers knowledge between chemists and chemical engineers. • QR codes direct the readers to animations, short videos, magazines, and blogs on specific topics. • Worked examples deepen the understanding of the sustainable assessment of chemical manufacturing processes.
Gasoline Additives
Gasoline – the most common petroleum product comes in several types or grades. Straight-run gasoline is generated solely by crude oil distillation. Crack gasoline, derived by thermal or catalytic breaking of heavier oil fractions, accounts for the majority of gasoline used in automobile and aviation. Straight-run gasoline, fractured gasoline, reformed and synthetic gasoline, and additives are used to create a wide range of gasoline kinds.
Industrial Chemical Separation
A fresh new treatment written by industry insiders, this work gives readers a remarkably clear view into the world of chemical separation. The authors review distillation, extraction, adsorption, crystallization, and the use of membranes – providing historical perspective, explaining key features, and offering insights from personal experience. The book is for engineers and chemists with current or future responsibility for chemical separation on a commercial scale – in its design, operation, or improvement – or for anyone wanting to learn more about chemical separation from an industrial point of view. The result is a compelling survey of popular technologies and the profession, one that brings the art and craft of chemical separation to life. Ever wonder how popular separation technologies came about, how a particular process functions, or how mass transfer units differ from theoretical stages? Or perhaps you want some pointers on how to begin solving a separation problem. You will find clear explanations and valuable insights into these and other aspects of industrial practice in this refreshing new survey.
Nanostructured Soft Matter
This book provides an interdisciplinary overview of a new and broad class of materials under the unifying name Nanostructured Soft Matter. It covers materials ranging from short amphiphilic molecules to block copolymers, proteins, colloids and their composites, microemulsions and bio-inspired systems such as vesicles.
