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A Knowledge Management edition, this book models safety management by transforming a common procedural model into a functional systems representation. This model offers clear graphic lines of influence of it's different components on organisational safety. The downloadable version is color-coded, as are the relevant illustrations.
Offers the theoretical frame of a generic H&S-MS. This work proposes a theoretical formulation of a generic H&S-MS, offering clear graphic lines of influence of the different components in the H&S-MS on organisational health and safety. It also reviews and updates author's theoretical and graphical model.
The construction industry has a distressingly poor safety record, whether measured in absolute terms or alongside other industries. The level of construction safety in a country is influenced by factors such as variations in the labour forces, shifting economies, insurance rates, legal ramifications and the stage of technological development. Yet the problem is a world-wide one, and many of the ways of tackling it can be applied across countries. Effective tools include designing, preplanning, training, management commitment and the development of a safety culture. The introduction and operation of effective safety management systems represents a viable way forwards, but these systems are all too rarely implemented. How can this be done? Should we go back to prescriptive legislation? This book considers these questions by drawing together leading-edge research papers from the proceedings of an international conference conducted by a commission (W099) on Safety and Health on Construction Sites of CIB, the international council of building research organisations.
This text serves as a complete introduction to the subject of knowledge management (KM), incorporating technical and social aspects, as well as concepts, practical examples, traditional KM approaches, and emerging topics.
Although the construction and engineering sector makes important contributions to the economic, social, and environmental objectives of a nation, it has a notorious reputation for being an unsafe industry in which to work. Despite the fact that safety performance in the industry has improved, injuries and fatalities still occur frequently. To address this, the industry needs to evolve further by integrating safety into all decision making processes. Strategic Safety Management in Construction and Engineering takes a broad view of safety from a strategic decision making and management perspective with a particular focus on the need to balance and integrate ‘science’ and ‘art’ when implementing safety management. The principles covered here include the economics of safety, safety climate and culture, skills for safety, safety training and learning, safety in design, risk management, building information modelling, and safety research methods and the research-practice nexus. They are integrated into a strategic safety management framework which comprises strategy development, implementation, and evaluation. Practical techniques are included to apply the principles in the context of the construction and engineering industry and projects. Case studies are also provided to demonstrate the localised context and applications of the principles and techniques in practice.
Professionals striving for accident reduction must deal with systems in which both technical and human elements play equal and complementary roles. However, many of the existing techniques in ergonomics and risk management concentrate on plant and technical issues and downplay human factors and "subjectivity." Safety Management: A Qualitative Systems Approach describes a body of theories and data that addresses safety by drawing on systems theory and applied psychology, stressing the importance of human activity within systems. It explains in detail the central roles of social consensus and reliability and the nature of verbal reports and functional discourse. This text presents a new approach to safety management, offering a path to both greater safety and to economic savings. It presents a series of methodological tools that have proven to be reliable through extensive use in the rail and nuclear industries. These methods allow organizational and systems failures to be analyzed much more effectively in terms of quantity, precision, and usefulness. The concepts and tools described in this book are particularly valuable for reliability engineers, risk managers, human factors specialists, and safety managers and professionals in safety-critical organizations.
A Systems Approach to Managing the Complexities of Process Industries discusses the principles of system engineering, system thinking, complexity thinking and how these apply to the process industry, including benefits and implementation in process safety management systems. The book focuses on the ways system engineering skills, PLM, and IIoT can radically improve effectiveness of implementation of the process safety management system. Covering lifecycle, megaproject system engineering, and project management issues, this book reviews available tools and software and presents the practical web-based approach of Analysis & Dynamic Evaluation of Project Processes (ADEPP) for system engineering of the process manufacturing development and operation phases. Key solutions proposed include adding complexity management steps in the risk assessment framework of ISO 31000 and utilization of Installation Lifecycle Management. This study of this end-to-end process will help users improve operational excellence and navigate the complexities of managing a chemical or processing plant. Presents a review of Operational Excellence and Process Safety Management Methods, along with solutions to complexity assessment and management Provides a comparison of the process manufacturing industry with discrete manufacturing, identifying similarities and areas of customization for process manufacturing Discusses key solutions for managing the complexities of process manufacturing development and operational phases