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In today’s world of manufacturing, it’s possible to be efficient but not profitable. How is this possible? While today’s manufacturing process control is real time, enterprise management remains transactional, and accounting systems remain structured for early 1800s piecework. Why are almost all of the productivity gains in manufacturing arising from better automation and control of processes (continuous, batch, hybrid, or discrete) and not from better chemistry, design, management, or financial controls? This book shows you exactly why this has happened and just how to fix it. The author details how automation and control can be applied to the supply chain, the enterprise, and to financial management. Inside, you’ll learn: • How to use the principles of real-time process control to better manage, measure, and control manufacturing businesses, both horizontally and vertically; • How to achieve much greater speed of information transfer for improved control over supply chain and distribution; and • How totally integrated inventory control, automated manufacturing, automated customer service, and smart pricing control ultimately lead to higher profits.
Successful management teams can identify the cost and return derived from the implementation of new technology, and they can properly apply the technology toward gaining a competitive advantage. IT and business managers alike need a resource that enables them to prepare for future operating conditions, identify beneficial solutions, and use high te
Provides the foundation and tools that are essential for an enterprise to bring Operational Excellence into their organizational culture; gain maximum results, benefits and value Strategies for and implementing details for enterprises at all levels of maturity from those with programs in place to those looking to improve safety, health, environment performance as well as the efficiency and effectiveness of their operations Includes topics from concept to sustainability satisfying knowledge requirements of all levels in the organization Defines program objectives; develops improvement strategies; identifies and prioritizes improvement opportunities; implements improvement plans; monitors, continuously improves and sustains results Applicable to a broad variety of operating enterprises, academic institutions and third party implementing organizations
The Industrial Information Technology Handbook focuses on existing and emerging industrial applications of IT, and on evolving trends that are driven by the needs of companies and by industry-led consortia and organizations. Emphasizing fast growing areas that have major impacts on industrial automation and enterprise integration, the Handbook covers topics such as industrial communication technology, sensors, and embedded systems. The book is organized into two parts. Part 1 presents material covering new and quickly evolving aspects of IT. Part 2 introduces cutting-edge areas of industrial IT. The Handbook presents material in the form of tutorials, surveys, and technology overviews, combining fundamentals and advanced issues, with articles grouped into sections for a cohesive and comprehensive presentation. The text contains 112 contributed reports by industry experts from government, companies at the forefront of development, and some of the most renowned academic and research institutions worldwide. Several of the reports on recent developments, actual deployments, and trends cover subject matter presented to the public for the first time.
Mathematical methods in engineering are characterized by a wide range of techniques for approaching various problems. Moreover, completely different analysis techniques can be applied to the same problem, which is justified by the difference in specific applications. Therefore, the study of the analyses and solutions of specific problems leads the researcher to generate their own techniques for the analysis of similar problems continuously arising in the process of technical development. Computational Methods and Mathematical Modeling in Cyberphysics and Engineering Applications contains solutions to specific problems in current areas of computational engineering and cyberphysics.
Tuning and Control Loop Performance, Fourth Edition provides the knowledge to eliminate the misunderstandings, realize the difference between theoretical and industrial application of PID control, address practical difficulties, improve field automation system design, use the latest PID features, and ultimately get the best tuning settings that enables the PID to achieve its full potential. The proportional-integral-derivative (PID) controller is the heart of every control system in the process industry. Given the proper setup and tuning, the PID has proven to have the capability and flexibility needed to meet nearly all of industry’s basic control requirements. However, the information to support the best use of these features has fallen behind the progress of improved functionality. Additionally, there is considerable disagreement on the tuning rules that largely stems from a misunderstanding of how tuning rules have evolved and the lack of recognition of the effect of automation system dynamics and the incredible spectrum of process responses, disturbances, and performance objectives.
Call it the Human element in how a refining and chemical process operation is run....the other side of the machine and control system operation equation. Its value is in lives protected and money saved. This plain English guide to the principles of human factors will enable operations and control personnel—both the experienced and uninitiated— to understand how to successfully incorporate the concepts within their own plants. Through real-world examples, the author explains how human factors engineering concepts do, and must, dovetail with process plant design and operation. Offering practical insights, the book lays out the principles of human-system interactions and how they must be incorporated into any plant and control system from the get go—in order to ensure safe and efficient operations. Control engineers and operations managers will gain incomparable, inside-the-industry experience from: • Clear discussion of performance-shaping factors; • In-depth discussion of key variables in terms of workload and staffing; • A detailed analysis of the all-important human-machine interface, including content and format; • How-to planning for system demands and levels of automation; • Invaluable guidance on worker selection and training, along with sample procedures and job aids; and • Tools for investigation of incidents and near-misses from the human perspective.
C. Amting Directorate General Information Society, European Commission, Brussels Under the 4th Framework of European Research, the European Systems and Soft ware Initiative (ESSI) was part of the ESPRIT Programme. This initiative funded more than 470 projects in the area' of software and system process improvements. The majority of these projects were process improvement experiments carrying out and taking up new development processes, methods and technology within the software development process of a company. In addition, nodes (centres of exper tise), European networks (organisations managing local activities), training and dissemination actions complemented the process improvement experiments. ESSI aimed at improving the software development capabilities of European enterprises. It focused on best practice and helped European companies to develop world class skills and associated technologies to build the increasingly complex and varied systems needed to compete in the marketplace. The dissemination activities were designed to build a forum, at European level, to exchange information and knowledge gained within process improvement ex periments. Their major objective was to spread the message and the results of experiments to a wider audience, through a variety of different channels. The European Experience Exchange ~UR~X) project has been one of these dis semination activities within the European Systems and Software Initiative.~UR~X has collected the results of practitioner reports from numerous workshops in Europe and presents, in this series of books, the results of Best Practice achieve ments in European Companies over the last few years.
Control engineering seeks to understand physical systems, using mathematical modeling, in terms of inputs, outputs and various components with different behaviors. It has an essential role in a wide range of control systems, from household appliances to space flight. This book provides an in-depth view of the technologies that are implemented in most varieties of modern industrial control engineering. A solid grounding is provided in traditional control techniques, followed by detailed examination of modern control techniques such as real-time, distributed, robotic, embedded, computer and wireless control technologies. For each technology, the book discusses its full profile, from the field layer and the control layer to the operator layer. It also includes all the interfaces in industrial control systems: between controllers and systems; between different layers; and between operators and systems. It not only describes the details of both real-time operating systems and distributed operating systems, but also provides coverage of the microprocessor boot code, which other books lack. In addition to working principles and operation mechanisms, this book emphasizes the practical issues of components, devices and hardware circuits, giving the specification parameters, install procedures, calibration and configuration methodologies needed for engineers to put the theory into practice. - Documents all the key technologies of a wide range of industrial control systems - Emphasizes practical application and methods alongside theory and principles - An ideal reference for practicing engineers needing to further their understanding of the latest industrial control concepts and techniques