01064nam0M2200361--I450-99000066588020331620010920000000.088-8265-118-50066588USA010066588(ALEPH)000066588USA010066588Sep-27,-d2001----km-y1itay0103----baengITa|||||||001yyAstronomy and calendar in ancient Romethe eclipse festivalsby Leonardo MaginiRomaL'Erma di Bretschneider2001133 p.ill.24 cmAstronomiaRoma anticaCalendario romano520.937MAGINI,Leonardo258673ITICCU20010925990000665880203316520.937 MAG159099/LM52000075456BKTECJOHNNY9020011004USA01133820020403USA011716PATRY9020040406USA011646Astronomy and Calendar in Ancient Rome707570UNISA03956nam 22006015 450 991087465700332120240906004934.09783031656750(electronic bk.)978303165674310.1007/978-3-031-65675-0(MiAaPQ)EBC31539229(Au-PeEL)EBL31539229(CKB)33101359000041(DE-He213)978-3-031-65675-0(EXLCZ)993310135900004120240721d2024 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierPosition and Nearshore Mooring Class Theory and Practice /by Alexander Arnfinn Olsen1st ed. 2024.Cham :Springer Nature Switzerland :Imprint: Springer,2024.1 online resource (189 pages)Springer Series on Naval Architecture, Marine Engineering, Shipbuilding and Shipping,2194-8453 ;23Print version: Olsen, Alexander Arnfinn Position and Nearshore Mooring Cham : Springer,c2024 9783031656743 Includes bibliographical references.Chapter 1. Classification of Mooring Systems -- Chapter 2. Mooring System Design -- Chapter 3. Thruster Assisted Mooring -- Chapter 4. Pre-laid station keeping systems for mobile offshore units -- Chapter 5. Mooring System Components -- Chapter 6. Mooring System Analysis -- Chapter 7. Available Thrust Analysis -- Chapter 8. Vortex Induced Movement (VIM) -- Chapter 9. Mooring Chain Fatigue -- Chapter 10. Nearside Position Mooring -- Chapter 11. Nearside Mooring Design Considerations -- Chapter 12. Sample Jetty Mooring Analysis -- Chapter 13. Mooring Integrity Analysis -- Chapter 14. Baseline Condition of Existing Mooring Systems -- Chapter 15. Mooring Integrity Assessment -- Chapter 16. Example of Mooring System Life Extension -- Glossary -- References.This book provides a summary of the Class Rules and Guides for mooring systems so that they are easier to navigate and therefore implement. Mooring systems have been evolving in design, analysis, operating management, and other areas to meet the challenges of safety and efficiency. To ensure these challenges are met, Class Rules and Guides are developed and updated to keep pace with the maritime industry. This has resulted in a complex library of Class Rules and Guides. Many requirements are repeated throughout these Class Rules and Guides making use and maintenance of Class Rules/Guides increasingly cumbersome and bureaucratic. In addition to the consolidation of the current requirements, this book also includes guidance in the following areas based on the latest industry knowledge and experiences: Vortex-Induced Motion (VIM) effect. Bending-tension fatigue of mooring chains. Fiber rope mooring criteria. Mooring systems in squalls. Dynamically installed anchors. Anchor holding capacity. Mooring analysis methodology. Thruster-assisted mooring.Springer Series on Naval Architecture, Marine Engineering, Shipbuilding and Shipping,2194-8453 ;23Marine engineeringTransportation engineeringTraffic engineeringMechanics, AppliedMarine EngineeringTransportation Technology and Traffic EngineeringEngineering MechanicsMarine engineering.Transportation engineering.Traffic engineering.Mechanics, Applied.Marine Engineering.Transportation Technology and Traffic Engineering.Engineering Mechanics.623.862Olsen Alexander Arnfinn1730780MiAaPQMiAaPQMiAaPQ9910874657003321Position and Nearshore Mooring4183954UNINA