Download Free Developing Process Safety Indicators Book in PDF and EPUB Free Download. You can read online Developing Process Safety Indicators and write the review.

Process safety metrics is a topic of frequent conversation within chemical industry associations. Guidelines for Process Safety Metrics provides basic information on process safety performance indicators, including a comprehensive list of metrics for measuring performance and examples as to how they can be successfully applied over both the short and long term. For engineers, insurers, corporate traininers, military personnel, government officials, students, and managers involved in production, product and process development, Guidelines for Process Safety Metrics can help determine appropriate metrics useful in monitoring performance and improving process safety programs. Note: CD-ROM/DVD and other supplementary materials are not included as part of eBook file.
Describes a six-stage process which can be adopted by organisations wishing to implement a programme of performance monitoring for process safety risks.
Process safety metrics is a topic of frequent conversation within chemical industry associations. Guidelines for Process Safety Metrics provides basic information on process safety performance indicators, including a comprehensive list of metrics for measuring performance and examples as to how they can be successfully applied over both the short and long term. For engineers, insurers, corporate traininers, military personnel, government officials, students, and managers involved in production, product and process development, Guidelines for Process Safety Metrics can help determine appropriate metrics useful in monitoring performance and improving process safety programs. Note: CD-ROM/DVD and other supplementary materials are not included as part of eBook file.
Most major process safety incidents are preventable and can be avoided as shown in several incident investigation reports. Moreover, these reports indicated that these incidents were certain to occur as shown from the related near-misses and safety control system failures that occurred prior to the incidents. The key element to improve process safety performance is developing effective process safety leading indicators. In the past, the petrochemical industrial organizations used traditional personnel safety measures to measure process safety performance. Now, most of the current industrial facilities focus more on process safety lagging indicators. Ignoring organizational factors and lacking a systematic approach were the major deficiencies during the development of process safety indicators. The main objective of this research is to construct a systematic technique to develop process safety leading indicators by selecting the most effective leading indicators, defining different safety metrics for each leading indicator, conducting accurate measurements, monitoring these metrics on a frequent basis, and revalidating the measures using lagging indicators and near-misses. The effects and contribution of different organizational factors were studied and analyzed within process safety performance. Process safety leadership, data collection system, and proactive monitoring are critical factors that directly impact the development of process safety leading indicators. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/155547
This book combines the synergies between performance improvement systems to help ensure safe and reliable operations, streamline procedures and cross-system auditing, and supporting regulatory and corporate compliance requirements. Many metrics are common to more than one area, such that a well-designed and implemented integrated management system will reduce the load on the Process Safety, SHE, Security and Quality groups, and improve manufacturing efficiency and customer satisfaction. Systems to improve performance include: process safety; traditional safety, health and environment; and, product quality. Chapters include: Integrating Framework; Securing Support & Preparing for Implementation; Establishing Common Risk Management Systems – How to Integrate PSM into Other EH; Testing Implementation Approach; Developing and Agreeing on Metrics; Management Review; Tracking Integration Progress and Measuring Performance; Continuous Improvement; Communication of Results to Different Stakeholders; Case Studies; and Examples for Industry.
The chemical processing industry has faced challenges with achieving improvements in safety performance, and accidents continue to occur. When accidents occur, they usually have a confluence of multiple factors, suggesting that there are underlying complex systemic problems. Moreover, accident investigations often reveal that accidents were preventable and that many of the problems were known prior to those accidents, suggesting that there may have been early warning signs. System-based analysis addresses systemic aspects and leading indicators enable the detection of ineffective controls and degradation of the system. Together, they could enable taking needed actions before an incident or a loss event. To develop process safety indicators, the chemical processing industry currently uses guidelines that are mainly based on the concepts of the "Swiss Cheese Model" and the "Accident Pyramid." The current guidelines lack a systemic approach for developing process safety indicators; the guidelines view indicators as independent measures of the safety of a system (e.g. a failure of a barrier), which can be misleading because it would not identify ineffective controls, such as those associated with the migration of the system towards an unsafe state, or associated with interdependencies between barriers. Moreover, process safety indicators that are currently used in the chemical industry are more focused on lagging as opposed to leading indicators. This main objective of this thesis is to develop a structured system-based method that can assist a hydrocarbon/chemical processing organization in developing system-based process safety leading indicators. Building on developed safety control structures and the associated safety constraints, the proposed method can be used to develop both technical and organizational leading indicators based on the controls, feedbacks, and process models, which, ultimately, can ensure that there is an effective control structure.
Use this guideline to develop an effective Process Safety Knowledge Management system When managing the risks of hazardous materials and energies, a well-developed process safety program is critical for maintaining a healthy workforce, for protecting the environment, and for sustaining the business. The Center for Chemical Process Safety (CCPS) has identified Process Knowledge Management as one of its twenty Elements in its Risk Based Process Safety (RBPS) approach. With an effective Process Safety Knowledge Management (PSKM) system, an organization will be able to capture, organize, maintain, and access its technical, engineering, and administrative information. Thus, an effective PSKM system will help an organization successfully manage its risks. This book provides a set of comprehensive guidelines for implementing a Process Safety Knowledge Management (PSKM) system, which will help an organization improve its process safety performance. The book begins with a discussion on the characteristics of a PSKM system. Then it describes the underlying factors for successful implementation and ends with guidance on overcoming common implementation difficulties. Produced by a leading global process safety organization, this book is essential for any organization looking to ensure that systems are in place to sustain their process safety knowledge during the life of the process. Guidelines for Process Safety Knowledge Management readers will also find: Case studies throughout the book, with PSKM-related lessons Detailed discussions of how a PSKM system helps cultivate leadership, improves organizational culture, and involves employees A business case for PSKM, demonstrating the benefits to the business Guidelines for Process Safety Knowledge Management is ideal for process safety professionals, engineering managers, facility managers, maintenance managers, production managers, and others responsible for creating or managing their process safety knowledge management systems.
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.
This Guidance on Developing Safety Performance Indicators (“Guidance on SPI”) was prepared to assist enterprises that wish to implement and/or review Safety Performance Indicator Programmes.
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.