Download Free Maritime Accident And Incident Investigation Book in PDF and EPUB Free Download. You can read online Maritime Accident And Incident Investigation and write the review.

This guide for trainees, advanced students and junior maritime professionals covers maritime organisational hazards and risks; root cause analyses and techniques for analysing evidence; and a maritime root cause analysis and strategy approach; with flow diagrams, line charts, and a toolkit of forms and documents.
Marine accidents can occur at any time and everywhere in the world, resulting in loss of life, property, environment and reputation of the companies involved. Preventing accidents and establishing a safer world without accidents is an important agenda for the maritime industry. Since the enforcement of the International Safety Management Code in 1998, companies have taken various kinds of measures to prevent accidents. Unfortunately, measures have been undertaken in a disorganized manner, and have not been effective. Experts of risk management, the safety management system, and accident models have each undertaken accident preventive measures within the scope of their specific fields, but have not looked beyond the realm of their own fields. This book discusses systematic accident prevention by integrating multi-disciplinary expertise based on academic research, the quality management system which has already proved its effectiveness in other fields, and findings of the author’s research. In systematic accident prevention, the weaknesses of a system within which accidents and incidents have occurred are viewed by combining scientific accident investigation data based on the International Maritime Organization model and the accident model. The nature of every type of marine accident, such as collisions, groundings, occupational casualties, etc., are derived by combining the accident model and statistical data. System weaknesses are rectified by the risk reduction method of risk management, and the rectified performance is incorporated in improvement in the system by the PDCA cycle, which is the core of the Safety Management System. We can see the weakness in the system and reduce the number of accidents and incidents while utilizing limited resources optimally to prevent accidents and incidents.
Maritime Accident and Incident Investigation covers a wide range of topics relating to maritime-orientated organisational hazards and risks, as well as root cause analyses and techniques for analysing evidence. Its approach to maritime casualty and incident investigation caters to the unique needs of the maritime industry and covers the human element, machinery and engineering, and structural and security concerns. The book is divided into four parts, which respectively introduce the concepts and theories of organisational risks and hazards; provide a framework structure for planning, initiating, performing, and closing out maritime casualty and incident investigations; provide an overview of the main forms of analyses; and offer a toolkit of forms and documents for preparing and carrying out incident investigations. Features: Focuses on basic principles independent of particular software or protocols, allowing customisation to the reader’s own management system, Health, Safety and Environment (HSE) programmes, or related initiatives Supports the reader in applying class-related activities such as the provisions of the ISM Code and the International Ship and Port Facility Security (ISPS) Code The book is ideal for trainees, advanced students, and junior maritime professionals involved in the investigation of maritime accidents and incidents. Also available as online Support Material is a full MaRCIIF Toolkit, containing several resources, such as checklists, forms, and guidelines, useful in the execution of maritime incident investigations. Access the Support Material: www.routledge.com/9781032530239 Alexander Arnfinn Olsen is a Senior Consultant at RINA Consulting Defence UK. He is STCW II 1995 qualified and has also worked as a marine training designer, marine auditor, and fisheries observer. He is the author of Introduction to Ship Operations and Onboard Safety, Core Concepts of Maritime Navigation, Introduction to Ship Engine Room Systems, Maritime Cargo Operations, Merchant Ship Types, and Firefighting and Fire Safety Systems on Ships (with Routledge).
“By far the most thorough and well-written investigative book on RMS Titanic’s short life and tragic sinking that this reviewer has read . . . fascinating.” —Choice Reviews The sinking of the Titanic on her maiden voyage in April 1912 was one of the defining moments of the twentieth century. Books and films about the disaster that befell the iconic liner are commonplace, and it seems almost inconceivable that anything fresh can emerge. But there is one angle that has not been covered, and Titanic examines the events of April 1912 from that completely new perspective. John Lang brings the standards of a twenty-first-century accident investigation to bear on the events of April 1912, using his expertise and his investigator’s instinct to determine exactly what happened a century ago, and what important lessons still need to be learned. “A fascinating account . . . this book looks at the facts from a new perspective and uncovers some unexpected findings. A worthwhile read.” —Royal Naval Sailing Association “Provides genuine insight into what almost certainly happened before, during and after the ice sliced through the five compartments on the liner’s starboard bow.” —Viewpoint “Lang, with his experience of marine accident investigation has found an angle in examining events of April 1912 from the perspective of an MAIB officer. His analysis is supported by detailed background material enabling the reader to understand the events of the collision and sinking more fully as he brings the standards of a 21st century investigation to bear on the events in determining exactly what happened and why.” —Flash
The MSC adopted a new Code of International Standards and Recommended Practices for a Safety Investigation into a Marine Casualty or Marine Incident (Casualty Investigation Code). Relevant amendments to SOLAS Chapter XI 1 were also adopted, to make parts I and II of the Code mandatory. Part III of the Code contains related guidance and explanatory material. The Code will require a marine safety investigation to be conducted into every marine casualty involving the total loss of the ship or a death or severe damage to the environment. The Code will also recommend an investigation into other marine casualties and incidents, by the flag state of a ship involved, if it is considered likely that it would provide information that could be used to prevent future accidents. The new regulations expand on SOLAS Regulation I/21, which requires administrations to conduct an investigation of any casualty occurring to any of its ships when it judges that such an investigation may assist in determining what changes in the present regulations might be desirable.
These proceedings document the various presentations at the Fourth Resilience Engineering Symposium held on June 8-10, 2011, in Sophia-Antipolis, France. The Symposium gathered participants from five continents and provided them with a forum to exchange experiences and problems, and to learn about Resilience Engineering from the latest scientific achievements to recent practical applications. The First Resilience Engineering Symposium was held in Söderköping, Sweden, on October 25-29 2004. The Second Resilience Engineering Symposium was held in Juan-les-Pins, France, on November 8-10 2006, The Third Resilience Engineering Symposium was held in Juan-les-Pins, France, on October 28-30 2008. Since the first Symposium, resilience engineering has fast become recognised as a valuable complement to the established approaches to safety. Both industry and academia have recognised that resilience engineering offers valuable conceptual and practical basis that can be used to attack the problems of interconnectedness and intractability of complex socio-technical systems. The concepts and principles of resilience engineering have been tested and refined by applications in such fields as air traffic management, offshore production, patient safety, and commercial fishing. Continued work has also made it clear that resilience is neither limited to handling threats and disturbances, nor confined to situations where something can go wrong. Today, resilience is understood as the intrinsic ability of a system to adjust its functioning prior to, during, or following changes and disturbances, so that it can sustain required operations under both expected and unexpected conditions. This definition emphasizes the ability to continue functioning, rather than simply to react and recover from disturbances and the ability to deal with diverse conditions of functioning, expected as well as unexpected. For anyone who is interested in learning more about Resilience Engineering, the books published in the Ashgate Studies in Resilience Engineering provide an excellent starting point. Another sign that Resilience Engineering is coming of age is the establishment of the Resilience Engineering Association. The goal of this association is to provide a forum for coordination and exchange of experiences, by bringing together researchers and professionals working in the Resilience Engineering domain and organisations applying or willing to apply Resilience Engineering principles in their...
This is a print on demand edition of a hard to find publication. On April 20, 2010, a well control event allowed hydrocarbons to escape from the Macondo well onto Transocean¿s ¿Deepwater Horizon,¿ resulting in explosions and fire on the rig. This is the report of an internal BP incident invest. team. It presents an analysis of the events leading up to the accident, 8 key findings related to the causal chain of events, and recommend. to enable the prevention of a similar accident. The invest. team worked separately from any invest. conducted by other co. involved in the accident, and it did not review its analyses, conclusions or recommend. with any other co. or invest. team. Other invest., such as the U.S. Coast Guard, U.S. Justice Dept., and Bur. of Ocean Energy Mgmt., and the Pres. Nat. Comm. are ongoing.