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in the worst case, collapse of structures will have a major impact on cost also. An optimal integrity management that ensures safe and functionality at a minimum cost is hence often an important goal in planning inspection and repair of a structure.

Schematic illustration of the elements of why we inspect structures.

      Inspections and surveys also provide a means to determine the current condition of a structure and if necessary, timely undertake appropriate and cost‐effective mitigation and repair measures to preserve the integrity of the structure. This will be discussed further in the book, especially in Chapter 6 on long‐term inspection planning. In addition, regulatory and code requirements need to be met and these may define a minimum inspection level.

      The decision to undertake any form of repair or mitigation of an anomaly, detected by inspection, needs to be based on a thorough evaluation and often a more detailed inspection of the anomaly and its effect on the structural safety, based on established standards and knowledge. If repair or mitigation is required, the necessary decisions need to be made on how this can be achieved effectively. Failure to repair or mitigate critical anomalies could cause structural failure with the possibility of significant consequences. Thus, this emphasises the important role of inspection, evaluation, mitigation and repair in maintaining a safe structure.

      Structural failures have occurred offshore with significant loss of life. The first of these was the Sea Gem incident in 1965 in UK waters with the loss of 13 lives. The resulting inquiry concluded metal fatigue in part of the suspension system linking the hull to the legs was to blame for the collapse. Fatigue cracking and lack of in‐service inspection were significant in the Alexander L. Kielland capsize in 1980 killing 123 people, as already mentioned.

      Offshore structures in the Gulf of Mexico have also failed during hurricanes. For example, Hurricane Andrew in 1992 caused significant damage to twenty‐two of the offshore regions, with older structures sustaining significant damage. Inspection was needed to determine the extent of the damage and in many cases this information led to the need for repair in order to resume operation. Several examples of hurricane damage in the GoM are reviewed later in this book.

      Other offshore accidents have also occurred. Not all of these failures were a result of an anomaly that could be identified by inspection. Some were the results of under‐design, underprediction of loading, accidental damage and gross errors. Such failures typically initiate significant subsequent research work providing a better understanding of the cause of failure and appropriate inspection requirements. An example of such is the intensive work that was initiated on fatigue and crack inspection after the Alexander L. Kielland accident.

Schematic illustration of damage to hull structural members by different causes and ship age for all ship types.

       an initial phase where anomalies arise from the design, fabrication and installation;

       the maturity phase representing the useful operating life; and

       the ageing and terminal phases representing the first and second part of the end of life.

Schematic illustration of typical bathtub curve. It should be noted that ageing may set in earlier if the structure is not managed properly.

      Source: Based on HSE (2006). Plant ageing—Management of equipment containing hazardous fluids or pressure, HSE RR 509.

      In the maturity phase a lower failure rate is expected and the purpose of the inspection is to confirm that changes to the structure’s condition, configuration and loading are in line with expectation.

      In the ageing and terminal phases the failure rate is expected to increase, although this is seldom recognised by structural integrity engineers. The purpose of inspection in these phases is to provide the basis for evaluation and the need for and prioritisation of repairs to ensure that the structure is still fit for purpose. Standards in some cases also require special inspections to be performed in these phases. The frequency of inspection is expected to increase compared to that in the maturity phase and even more so in the terminal phase.

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