How can a towering, state-of-the-art offshore oil rig, designed to withstand the most brutal marine environments on earth, suddenly snap and capsize in a matter of twenty minutes? The Alexander L. Kielland disaster of 1980 remains a terrifying landmark in marine engineering and offshore safety. The rig functioned as a floating hotel for North Sea oil workers. In the midst of a violent squall, a single, microscopic fatigue crack-originating from a poorly welded 6-millimeter hydrophone mount-silently spread through one of the massive steel bracings. When the bracing finally snapped, it triggered a catastrophic chain reaction that tore an entire leg off the pentagon-shaped platform. The rig violently tilted and capsized, trapping and killing 123 men in the freezing, turbulent waters. This meticulous forensic engineering analysis deconstructs the anatomy of a deep-sea catastrophe. It explores the flawed architectural redundancies, the agonizing delays in the deployment of lifeboats, and the total overhaul of global maritime certification standards that followed. Witness the fragility of industrial monoliths. The Alexander L. Kielland tragedy is a brutal reminder that the smallest, most insignificant weld can effortlessly destroy thousands of tons of steel.



Autorentext

Author

Titel
Fractured Steel: The Capsizing of the Alexander L. Kielland
Untertitel
Fatigue, Welding, and the Microscopic Failure That Doomed a North Sea Oil Rig, 1980
EAN
9783565494798
Format
E-Book (epub)
Hersteller
Digitaler Kopierschutz
frei
Dateigrösse
0.85 MB
Anzahl Seiten
212