Recognizing Catastrophic Incident Warning Signs in the Process Industries


Book Description

This book provides guidance on characterizing, recognizing, and responding to warning signs to help avoid process incidents and injuries before they occur. The guidance can be used by both process safety management (PSM) professionals in evaluating their processes and PSM systems as well as for operators who are often the frontline defense against process incidents. Warning signs may consist of process deviations or upsets, instrumentation warnings or alarms, past operating history and incidents, observable problems such as corrosion or unusual odors, audit results indicating procedures are not being followed, or a number of other indicators. Filled with photos and practical tips, this book will turn anyone in a process plant into a hazard lookout and will help prevent potential incidents before they turn into catastrophic events.




Recognizing and Responding to Normalization of Deviance


Book Description

An essential guide for recognizing and responding to normalization of deviance to help organizations improve their process safety performance This book provides an introduction and offers approaches for finding and addressing normalization of deviation both in operational and organizational activities. It addresses the initial and long-term effects of normalization of deviations as seen in reduced efficiencies, reduced product quality, extended batch run time, and near miss process safety incidents which can lead to loss of containment of hazardous materials and energies. Recognizing and Responding to Normalization of Deviance addresses how to recognize and respond to the normalization of deviation that can, and almost certainly will, occur in any ongoing operations that involves humans. The book’s primary focus is on reducing the incidence of normalization of deviation and the associated increased risk exposure due to its effects when operating chemical or petrochemical manufacturing facilities. It contains an introduction to the concept and offers approaches for finding and addressing normalization of deviation when it presents itself in both operational and organizational activities. Contains guidance to assist facilities in recognizing and addressing the phenomenon of normalization of deviation Provides techniques for addressing normalized deviations and techniques to eliminate waste in all manufacturing processes Describes methods for identifying normalized deviation as well as where to find deviations Includes techniques to reduce operational normalization of deviance and to reduce organizational normalization of deviance Aimed at process safety professionals and consultants applying process safety risk reduction efforts in manufacturing areas, Recognizing and Responding to Normalization of Deviance is an important book for any organization that has seen its process safety performance deteriorate over time.




Essential Practices for Creating, Strengthening, and Sustaining Process Safety Culture


Book Description

An essential guide that offers an understanding of and the practices needed to assess and strengthen process safety culture Essential Practices for Developing, Strengthening and Implementing Process Safety Culture presents a much-needed guide for understanding an organization's working culture and contains information on why a good culture is essential for safe, cost-effective, and high-quality operations. The text defines process safety culture and offers information on a safety culture’s history, organizational impact and benefits, and the role that leadership plays at all levels of an organization. In addition, the book outlines the core principles needed to assess and strengthen process safety culture such as: maintain a sense of vulnerability; combat normalization of deviance; establish an imperative for safety; perform valid, timely, hazard and risk assessments; ensure open and frank communications; learn and advance the culture. This important guide also reviews leadership standards within the organizational structure, warning signs of cultural degradation and remedies, as well as the importance of using diverse methods over time to assess culture. This vital resource: Provides an overview for understanding an organization's working culture Offers guidance on why a good culture is essential for safe, cost-effective, and high quality operations Includes down-to-earth advice for recognizing, assessing, strengthening and sustaining a good process safety culture Contains illustrative examples and cases studies, and references to literature, codes, and standards Written for corporate, business and line managers, engineers, and process safety professionals interested in excellent performance for their organization, Essential Practices for Developing, Strengthening and Implementing Process Safety Culture is the go-to reference for implementing and keeping in place a culture of safety.




What Went Wrong?


Book Description

What Went Wrong? 6th Edition provides a complete analysis of the design, operational, and management causes of process plant accidents and disasters. Co-author Paul Amyotte has built on Trevor Kletz's legacy by incorporating questions and personal exercises at the end of each major book section. Case histories illustrate what went wrong and why it went wrong, and then guide readers in how to avoid similar tragedies and learn without having to experience the loss incurred by others. Updated throughout and expanded, this sixth edition is the ultimate resource of experienced-based analysis and guidance for safety and loss prevention professionals. - 20% new material and updating of existing content with parts A and B now combined - Exposition of topical concepts including Natech events, process security, warning signs, and domino effects - New case histories and lessons learned drawn from other industries and applications such as laboratories, pilot plants, bioprocess plants, and electronics manufacturing facilities




Guidelines for Managing Abnormal Situations


Book Description

The book discusses why management of abnormal situations is important to process safety. The book provides guidance on practical steps to avoid or mitigate an accident or incident before it escalates into a more dangerous and costly issues which can include downtime, lost production, equipment damage, injuries, and external/ environmental damage. Through the use of case studies the book illustrates the impact these deviant occurrences can have on operating facilities. Management principles that can be established before an issue occurs are presented while case studies are used to illustrate the impact that an abnormal situation can have on an operating facility. The impact of plant design are detailed, with separate focus points on new plant design and retrofits to existing plants. A section on writing plant procedures and plant policies so that they incorporate the principles of managing abnormal situations is also included. Training content is provided on how to manage deviant situations, with guidance on presenting the information to specific target populations, such as front-line operators, operations managers, plant engineers, and process safety engineers. Readers are also shown tools that are currently available for recognizing and responding to abnormal situations, and actions that process safety engineers can use during Hazard Identification and Risk Analysis (HIRA).




Process Safety


Book Description

Effective process safety programs consist of three interrelated foundations—safety culture and leadership, process safety systems, and operational discipline—designed to prevent serious injuries and incidents resulting from toxic releases, fires, explosions, and uncontrolled reactions. Each of these foundations is important and one missing element can cause poor process safety performance. Process Safety: Key Concepts and Practical Approaches takes a systemic approach to the traditional process safety elements that have been identified for effective process safety programs. More effective process safety risk reduction efforts are achieved when these process safety systems, based on desired activities and results rather than by specific elements, are integrated and organized in a systems framework. This book provides key concepts, practical approaches, and tools for establishing and maintaining effective process safety programs to successfully identify, evaluate, and manage process hazards. It introduces process safety systems in a way that helps readers understand the purpose, design, and everyday use of overall process safety system requirements. Understanding what the systems are intended to achieve, understanding why they have been designed and implemented in a specific way, and understanding how they should function day-to-day is essential to ensure continued safe and reliable operations.




Driving Continuous Process Safety Improvement From Investigated Incidents


Book Description

New perspectives on how to successfully drive changes in companies’ process safety management systems Simply learning from process safety incidents has proven to be insufficient to drive performance improvements. To truly change, organizations must seek out & embed learnings in their programs & systems. This book picks up from previous CCPS books, Incidents That Define Process Safety and Investigating Process Safety Incidents. This important book: Offers guidelines for improving process safety performance by embedding the lessons learned from publicly available investigations Recommends a continuous improvement learning model focused on organizational learning Provides examples for using the model’s techniques to drive continuous improvements Contains an index of more than 400 investigated incidents and introduces the concept of Drilldown to help find lessons that might not have been mentioned before. Written for safety professionals and process safety consultants, Driving Continuous Process Safety Improvement from Investigated Incidents is a hands-on guide for adopting a model for successfully driving the learnings from process safety incident investigations.




Methods in Chemical Process Safety


Book Description

Methods in Chemical Process Safety, Volume One publishes fully commissioned reviews across the field of process safety, risk assessment, and management and loss prevention, with this volume focusing on the process of learning from experience, elements of process safety management, human factors in the chemical process industries, and the regulation of chemical process safety, including current approaches and their effectiveness. Users will find an informative tool and user manual for process safety for both engineering researchers and practitioners that details the latest methods in the field of chemical process safety. Helps acquaint the reader/researcher with the fundamentals of process safety Provides the most recent advancements and contributions on the topic from a practical point-of-view Presents users with the views/opinions of experts in each topic Includes a selection of the author(s) of each chapter from among the leading researchers and/or practitioners for each given topic




Guidelines for Implementing Process Safety Management


Book Description

The 2nd edition provides an update of information since the publication of the first edition including best practices for managing process safety developed by industry as well as incorporate the additional process safety elements. In addition the book includes a focus on maintaining and improving a Process Safety Management (PSM) System. This 2nd edition also provides "how to information to" determine process safety performance status, implement one or more new elements into an existing PSM system, maintain or improve an existing PSM system, and manage future process safety performance.




Data-Driven Fault Detection for Industrial Processes


Book Description

Zhiwen Chen aims to develop advanced fault detection (FD) methods for the monitoring of industrial processes. With the ever increasing demands on reliability and safety in industrial processes, fault detection has become an important issue. Although the model-based fault detection theory has been well studied in the past decades, its applications are limited to large-scale industrial processes because it is difficult to build accurate models. Furthermore, motivated by the limitations of existing data-driven FD methods, novel canonical correlation analysis (CCA) and projection-based methods are proposed from the perspectives of process input and output data, less engineering effort and wide application scope. For performance evaluation of FD methods, a new index is also developed.