Investigation Report Pesticide Chemical Runaway Reaction Pressure Vessel Explosion
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Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 270 |
Release | : 2019-10-14 |
Genre | : Technology & Engineering |
ISBN | : 1119561469 |
More Incidents that Define Process Safety book describes over 50 incidents which have had a significant impact on the chemical industry as well as the basic elements of process safety. Each incident is presented in sufficient detail to gain an understanding of root causes for the event with a focus on lessons learned and the impact the incident had on process safety. Incidents are grouped by incident type including Reactive chemical; Fires; Explosions; Environmental/toxic releases; and Transportation incidents. The book also covers incidents from other industries that illustrate the safety management elements. The book builds on the first volume and adds incidents from China, India, Italy and Japan. Further at the time the first volume was being written, CCPS was developing a new generation of process safety management elements that were presented as risk based process safety; these elements are addressed in the incidents covered.
Author | : National Research Council |
Publisher | : National Academies Press |
Total Pages | : 218 |
Release | : 2012-08-31 |
Genre | : Science |
ISBN | : 0309255430 |
The use of hazardous chemicals such as methyl isocyanate can be a significant concern to the residents of communities adjacent to chemical facilities, but is often an integral part of the chemical manufacturing process. In order to ensure that chemical manufacturing takes place in a manner that is safe for workers, members of the local community, and the environment, the philosophy of inherently safer processing can be used to identify opportunities to eliminate or reduce the hazards associated with chemical processing. However, the concepts of inherently safer process analysis have not yet been adopted in all chemical manufacturing plants. The Use and Storage of Methyl Isocyanate (MIC) at Bayer CropScience presents a possible framework to help plant managers choose between alternative processing options-considering factors such as environmental impact and product yield as well as safety- to develop a chemical manufacturing system. In 2008, an explosion at the Bayer CropScience chemical production plant in Institute, West Virginia, resulted in the deaths of two employees, a fire within the production unit, and extensive damage to nearby structures. The accident drew renewed attention to the fact that the Bayer facility manufactured and stores methyl isocyanate, or MIC - a volatile, highly toxic chemical used in the production of carbamate pesticides and the agent responsible for thousands of death in Bhopal, India, in 1984. In the Institute accident, debris from the blast hit the shield surrounding a MIC storage tank, and although the container was not damaged, an investigation by the U.S. Chemical Safety and Hazard Investigation Board found that the debris could have struck a relief valve vent pipe and cause the release of MIC to the atmosphere. The Board's investigation also highlighted a number of weaknesses in the Bayer facility's emergency response systems. In light of these concerns, the Board requested the National Research Council convene a committee of independent experts to write a report that examines the use and storage of MIC at the Bayer facility. The Use and Storage of Methyl Isocyanate (MIC) at Bayer CropScience also evaluates the analyses on alternative production methods for MIC and carbamate pesticides preformed by Bayer and the previous owners of the facility.
Author | : U.s. Chemical Safety and Hazard Investigation Report |
Publisher | : CreateSpace |
Total Pages | : 172 |
Release | : 2014-08-01 |
Genre | : Nature |
ISBN | : 9781500480264 |
On August 28, 2008, at about 10:35 p.m., a runaway chemical reaction occurred inside a 4,500 gallon pressure vessel known as a residue treater, causing the vessel to explode violently in the methomyl unit at the Bayer CropScience facility in Institute, West Virginia. Highly flammable solvent sprayed from the vessel and immediately ignited, causing an intense fire that burned for more than 4 hours. The fire was contained inside the Methomyl-Larvin insecticide unit by the Bayer CropScience fire brigade with mutual aid assistance from local volunteer and municipal fire departments. The incident occurred during the restart of the methomyl unit after an extended outage to upgrade the control system and replace the original residue treater vessel. Two company employees who had been dispatched by the control room personnel to investigate why the residue treater pressure was increasing were near the residue treater when it ruptured. One died from blunt force trauma and burn injuries sustained at the scene; the second died 41 days later at the Western Pennsylvania Burn Center in Pittsburgh, Pennsylvania. Six volunteer firefighters who assisted in the unit fire suppression activities and two contractors working at the facility were treated for possible toxic chemical exposure. The Kanawha-Putnam County Emergency Management Director advised more than 40,000 residents, including the resident students at the West Virginia State University adjacent to the facility, to shelter-in-place for more than three hours as a precaution. The fire and drifting smoke forced the state police and local law enforcement authorities to close roads near the facility and the interstate highway, which disrupted traffic for hours. The Chemical Safety Board (CSB) investigation team determined that the runaway chemical reaction and loss of containment of the flammable and toxic chemicals resulted from deviation from the written start-up procedures, including bypassing critical safety devices intended to prevent such a condition. Other contributing factors included an inadequate pre-startup safety review; inadequate 1 operator training on the newly installed control system; unevaluated temporary changes, malfunctioning or missing equipment, misaligned valves, and bypassed critical safety devices; and insufficient technical expertise available in the control room during the restart. Poor communications during the emergency between the Bayer CropScience incident command and the local emergency response agency confused emergency response organizations and delayed public announcements on actions that should be taken to minimize exposure risk. Although Bayer CropScience reported that “no toxic chemicals were released because they were consumed in the intense fires,” the CSB later confirmed that the only air monitors suitably placed near the unit to detect toxic chemicals were, in fact, not operational at the time of the incident. No reliable data or analytical methods were available to determine what chemicals were released, or predict any exposure concentrations. The methomyl unit used the highly toxic chemical, methyl isocyanate (MIC), in a series of complex chemical reactions to produce methomyl, a dry chemical used to make the pesticide, Larvin. MIC is manufactured in a separate production unit at the facility and stored in large underground pressure vessels. Liquid MIC was pumped to a “day tank” pressure vessel near the Methomyl-Larvin unit, which provided the daily production quantity of MIC for the methomyl unit and the carbofuran unit, which is about 200 feet west of the methomyl unit. The MIC storage tank adjacent to the methomyl unit and the MIC transfer piping between the production unit and the manufacturing units were not damaged, nor did the MIC storage tank overheat or pressurize above the operating limits during the fire.
Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 604 |
Release | : 2017-01-06 |
Genre | : Technology & Engineering |
ISBN | : 1119352134 |
This book provides designers and operators of chemical process facilities with a general philosophy and approach to safe automation, including independent layers of safety. An expanded edition, this book includes a revision of original concepts as well as chapters that address new topics such as use of wireless automation and Safety Instrumented Systems. This book also provides an extensive bibliography to related publications and topic-specific information.
Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 156 |
Release | : 2013-12-13 |
Genre | : Technology & Engineering |
ISBN | : 1118530519 |
An understanding of organizational change management (OCM) — an often overlooked subject — is essential for successful corporate decision making with little adverse effect on the health and safety of employees or the surrounding community. Addressing the myriad of issues involved, this book helps companies bring their OCM systems to the same degree of maturity as other process safety management systems. Topics include corporate standard for organizational change management, modification of working conditions, personnel turnover, task allocation changes, organizational hierarchy changes, and organizational policy changes.
Author | : Alessandro Tugnoli |
Publisher | : Elsevier Inc. Chapters |
Total Pages | : 36 |
Release | : 2013-07-08 |
Genre | : Science |
ISBN | : 0128082526 |
Risk-based design has an important role in the inherent prevention of domino effect, limiting the possibility of escalation by both physical distances between units and introduction of robust safety barriers. In this chapter, the role of design in reducing domino hazard has been explored. Layout definition was identified as a key factor for the prevention of escalation. Threshold values for escalation to be used in design activities were defined. Thus, criteria for the assessment of appropriate safety distances were developed and implemented in layout design. The integration of different strategies in accident mitigation was identified as the key in achieving safer plants with respect to domino accidents. Since conceptual tools alone frequently fail in solving the tradeoffs related to the conflicting needs in the design improvement, inherent safety metrics were introduced to support design activities.
Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 134 |
Release | : 2013-11-18 |
Genre | : Technology & Engineering |
ISBN | : 111877793X |
The initial Layer of protection analysis (LOPA) book published in 2001 set the rules and approaches for using LOPA as an intermediate method between purely qualitative hazards evaluation/analysis and more quantitative analysis methods. Basic LOPA provides an order-of-magnitude risk estimate of risk with fairly reproducible results. LOPA results are considered critical in determining safety integrity level for design of safety instrumented systems. This guideline clarifies key concepts and reinforces the limitations and the requirements of LOPA. The main scope of the guideline is to provide examples of CMs and ECs and to provide concrete guidance on the protocols that must be followed to use these concepts. The book presents a brief overview of Layer of Protection Analysis (LOPA) and its variations, and summarizes terminology used for evaluating scenarios in the context of a typical incident sequence. It defines and illustrates the most common types of ECs and CMs and shows how they interrelate to risk criteria as well as their application to other methods.
Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 277 |
Release | : 2022-11-14 |
Genre | : Technology & Engineering |
ISBN | : 1119862892 |
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).
Author | : CCPS (Center for Chemical Process Safety) |
Publisher | : John Wiley & Sons |
Total Pages | : 288 |
Release | : 2021-01-27 |
Genre | : Technology & Engineering |
ISBN | : 1119529158 |
Prevent operational incidents and reduce risks with an essential CCPS guide You can help your company reduce its operating risks by learning how to effectively manage transient operations and avoid major incidents. Startups and shutdowns, known as transient operations, can be high-risk periods for manufacturing facilities. Guidelines for Process Safety During Transient Operations offers useful guidance in preparing for the safe startup and shutdown of chemical processes. With an understanding of the risks involved, you can work proactively to prevent fatalities, serious injuries, reduced productivity, and costly damage. This essential guide for plants provides clear examples of how to anticipate and avoid major issues. The book examines safe shutdown procedures in the event of an emergency. You will also gain direction on how to resume operations safely after an unexpected shutdown. The book supports anyone tasked with regulating and overseeing chemical plants and procedures, whether you are an engineer, manager, or government professional. Minimize operating risks through the effective management of transient operations Establish safe start-up and shutdown procedures for chemical processes Be ready to safely shut down processes in the event of an emergency Learn from real world examples of start-up or shutdown incidents Review procedures and engineering controls that help prevent or reduce the effects of incidents involving transient operations Guidelines for Process Safety comes to you from The Center for Chemical Process Safety (CCPS), which offers advanced thinking in the critical area of process safety. The organization develops technology and management practices for companies seeking to reduce hazards within the chemical and petrochemical industries.
Author | : Andy Brazier |
Publisher | : Elsevier |
Total Pages | : 312 |
Release | : 2021-01-21 |
Genre | : Technology & Engineering |
ISBN | : 0128194480 |
Trevor Kletz has had a huge impact on the way people viewed accidents and safety, particularly in the process industries. His ideas were developed from nearly 40 years working in the chemical industry. When he retired from the field, he shared his experience and ideas widely in more than 15 books. Trevor Kletz Compendium: His Process Safety Wisdom Updated for a New Generation introduces Kletz's stories and ideas and brings them up to date in this valuable resource that equips readers to manage process safety in every workplace. Topics covered in this book include inherent safety, safety studies, human factors and design. Learn the lessons from past accidents to make sure they don't happen again. - Focuses on understanding systems and learning from past accidents - Describes approaches to safety that are practical and effective - Provides an engineer's perspective on safety