Commercial Ship Surveying: On/Off Hire Condition Surveys and Bunker Surveys provides guidance on the complete survey process, what should be done to prepare, and what constitutes good practice, all completely detailed so that the process can be executed quickly and efficiently. In addition to the surveying process, the book describes supplementary topics, such as the vessels likely encountered, the gear and rigging involved, and the special techniques necessary. The book is well-researched, with plenty of practical examples and photographic references, explaining not only what is expected to happen during surveys, but also how marine surveyors and ships' officers are expected to perform, if, and when, they become involved with this work. Dedicated to detail, this book ensures that the reader clearly understands each step of the surveying process.

Hybrid Ship Hulls provides an overview of cutting-edge developments in hybrid composite-metal marine ship hulls, covering the critical differences in material processing and structural behavior that must be taken into account to maximise benefits and performance. Supporting the design of effective hybrid hulls through proper consideration of the benefits and challenges inherent to heterogenic structures, the book covers specific details of quality control, manufacturing, mechanical and thermal stress, and other behavioral aspects that need to be treated differently when engineering hybrid ship hulls. With a particular focus on heavy-duty naval applications, the book includes guidance on the selection of composite part configurations, innovative design solutions, novel hybrid joining techniques, and serviceability characterization.

Maritime transport faces multiple challenges, therefore it requires an interdisciplinary approach in order to respond efficiently to the interaction between diverse agents. This book presents interdisciplinary research, as well as operational experiences, which contribute towards the development of the field. The substantial growth of maritime shipping has resulted in large quantities of good and products being transported around the world, creating a demand for innovative solutions for infrastructure and fleets. A further increase in the scale and the size of container carriers and passenger cruisers also requires special facilities. These developments have presented a challenge for different types of technologies, as well as operational systems. Maritime transportation ought to be integrated with other services such as railways, roadways and airports and, in some cases, river and canal traffic in order to achieve maximum efficiency. It also needs to respond rapidly to the economic and political circumstances in different parts of the world. These challenges often require extreme performances in terms of capacity, speed of delivery, energy consumption, environmental sustainability, as well as social and economic aspects. A range of topics are covered, including: Ports and their operation; Routing and automatic control of marine ships; Responsible and sustainable port innovation and development along the 21st century Maritime Silk Road; Ports of the future - Sustainable intelligent ports for smart and autonomous ships and logistics; Pollution and the protection of the marine environment; Maritime education and training; Planning and management.

In this study of the life and work of Saint-Nazaire's shipbuilding workers in the 30 years before World War I, Schuster shows that the consequences of industrial production for workers differed sharply according to their resources and experiences. She details the competing identities and divergent values maintained by shipbuilding workers, demonstrating that they were fostered by the interaction between state programs, industrial production, and the traditions pursued in the local realm. Third Republic economic policies for shipbuilding promoted unemployment and worker dependence on state officials over union leaders, and the uneven application of capitalist methods of production meant multiple workplace experiences that further undercut association.

A workforce composed of industrial workers and agricultural producers brought markedly different priorities to the workplace. Urban-dwelling industrial workers proved dependent on shipbuilding, while workers commuting from La Grande Bri DEGREESDere, a nearby marshland, were property-owning producers, mostly peat-cutters, with traditions of self-government and a commanding community identity. They turned to ship production precisely to maintain rural settlement and agricultural production. These divergent values and responses to industrial work, in conjunction with multiple barriers to association, generated separate and even contrary labor concerns and protests.

This book introduces the components and principles of the common ballast management systems. The working principles of different filtration, cleaning and sterilizing equipment are also introduced. The calculation norm of the construction design and the calculation method of simulation are described. Besides, different aspects of system management are analyzed. The principle of various detecting sensors, the hardware of control system and the design method of human-computer interface are respectively introduced. Last but not least, the maintenance and management of ballast water management system are described, mainly the maintenance and management of key components which composes the system.

On July 4, 1991, the Arleigh Burke class of destroyers, the most powerful surface combatants in naval history, was commissioned. It was the culmination of a century-and-a-half evolution of the destroyer—an evolution captured in this vivid and timely history of the world's most popular warship. Destroyers: An Illustrated History of Their Impact tells the story of one of the most-recent, most-rapidly evolving additions to the world's navies. Coverage ranges from the 1882 launch of the first destroyer, through the nonstop technical and strategic innovations of the world war eras, to the current high watermarks of destroyer design such as the Arleigh Burke class (named for the navy's most-famous destroyer squadron combat commander). With its ship-by-ship analysis, this masterful volume shows how destroyers have continually met the challenge of protecting naval and land operations from ever more dangerous attacks. The book also captures the flavor of shipboard life for officers and crew and looks at the crucial role of the destroyer as a standard-bearing status symbol of naval might and political intention.

Trends in Maritime Technology and Engineering comprises the papers presented at the 6th International Conference on Maritime Technology and Engineering (MARTECH 2022) that was held in Lisbon, Portugal, from 24-26 May 2022. The Conference has evolved from the series of biennial national conferences in Portugal, which have become an international event, and which reflect the internationalization of the maritime sector and its activities. MARTECH 2022 is the sixth of this new series of biennial conferences. The book covers all aspects of maritime activity, including in Volume 1: Structures, Hydrodynamics, Machinery, Control and Design. In Volume 2: Maritime Transportation and Ports, Maritime Traffic, Safety, Environmental Conditions, Renewable Energy, Oil & Gas, and Fisheries and Aquaculture. Trends in Maritime Technology and Engineering aims at academics and professionals in the above mentioned fields.

Unmanned marine vehicles (UMVs) is a collective term used to describe autonomous underwater vehicles, remotely operated vehicles, semi-submersibles, and unmanned surface craft. Considerable interest has been shown in UMVs by the military, civilian and scientific communities due to their ability to undertake designated missions whilst either operating autonomously and/or on co-operation with other types of vehicle. Increasing importance is also being placed on the design and development of such vehicles as they are capable of providing cost effective solutions to a number of littoral, coastal and offshore problems. This book draws attention to the advanced technology which is evolving to meet the challenges being posed in this exciting and growing field of study.

Since its first appearance in 1950, "Pounder's Marine Diesel Engines" has served seagoing engineers, students of the Certificates of Competency examinations and the marine engineering industry throughout the world. Each new edition has noted the changes in engine design and the influence of new technology and economic needs on the marine diesel engine.
Now in its ninth edition, "Pounder's" retains the directness of approach and attention to essential detail that characterized its predecessors. There are new chapters on monitoring control and HiMSEN engines as well as information on developments in electronic-controlled fuel injection. It is fully updated to cover new legislation including that on emissions and provides details on enhancing overall efficiency and cutting CO2 emissions.
After experience as a seagoing engineer with the British India Steam Navigation Company, Doug Woodyard held editorial positions with the Institution of Mechanical Engineers and the Institute of Marine Engineers. He subsequently edited The Motor Ship journal for eight years before becoming a freelance editor specializing in shipping, shipbuilding and marine engineering. He is currently technical editor of Marine Propulsion and Auxiliary Machinery, a contributing editor to Speed at Sea, Shipping World and Shipbuilder and a technical press consultant to Rolls-Royce Commercial Marine.
* Helps engineers to understand the latest changes to marine diesel engineers
* Careful organisation of the new edition enables readers to access the information they require
* Brand new chapters focus on monitoring control systems and HiMSEN engines.
* Over 270 high quality, clearly labelled illustrations and figures to aid understanding and help engineers quickly identify what they need to know.

This book addresses various aspects of ship construction, from ship types and construction materials, to welding technologies and accuracy control. The contents of the book are logically organized and divided into twenty-one chapters. The book covers structural arrangement with longitudinal and transverse framing systems based on the service load, and explains basic structural elements like hatch side girders, hatch end beams, stringers, etc. along with structural subassemblies like floors, bulkheads, inner bottom, decks and shells. It presents in detail double bottom construction, wing tanks & duct keels, fore & aft end structures, etc., together with necessary illustrations. The midship sections of various ship types are introduced, together with structural continuity and alignment in ship structures. With regard to construction materials, the book discusses steel, aluminum alloys and fiber reinforced composites. Various methods of steel material preparation are discussed, and plate cutting and forming of plates and sections are explained. The concept of line heating for plate bending is introduced.Welding power source characteristics, metal transfer mechanisms, welding parameters and their effects on the fusion zone, weld deposit, and weld bead profile are discussed in detail. Various fusion welding methods, MMAW, GMAW, SAW, Electroslag welding and Electrogas welding and single side welding are explained in detail. Friction stir welding as one of the key methods of solid state welding as applied to aluminum alloys is also addressed. The mechanisms of residual stress formation and distortion are explained in connection with stiffened panel fabrication, with an emphasis on weld induced buckling of thin panels. Further, the basic principles of distortion prevention, in-process distortion control and mitigation techniques like heat sinking, thermo-mechanical tensioning etc. are dealt with in detail. In its final section, the book describes in detail various types of weld defects that are likely to occur, together with their causes and remedial measures. The nondestructive testing methods that are most relevant to ship construction are explained. Lastly, a chapter on accuracy control based on statistical principles is included, addressing the need for a suitable mechanism to gauge the ranges of variations so that one can quantitatively target the end product accuracy.

During the last decade significant progress has been made in the field of ship stability. Yet in spite of the progress made, numerous scientific and practical challenges still exist with regard to the accurate prediction of extreme motion and capsize dynamics for intact and damaged vessels, the probabilistic nature of extreme events, criteria that properly reflect the physics and operational safety of an intact or damaged vessel, and ways to provide relevant information on safe ship handling to ship operators. This book provides a comprehensive review of the above issues through the selection of representative papers presented at the unique series of international workshops and conferences on ship stability held between 2000 and 2009. The editorial committee has selected papers for this book from the following events: STAB 2000 Conference (Launceston, Tasmania), 5th Stability Workshop (Trieste, 2001), 6th Stability Workshop (Long Island, 2002), STAB 2003 Conference (Madrid), 7th Stability Workshop (Shanghai, 2004), 8th Stability Workshop (Istanbul, 2005), STAB 2006 Conference (Rio de Janeiro), 9th Stability Workshop (Hamburg, 2007), 10th Stability Workshop (Daejeon, 2008), and STAB 2009 Conference (St. Petersburg). The papers have been clustered around the following themes: Stability Criteria, Stability of the Intact Ship, Parametric Rolling, Broaching, Nonlinear Dynamics, Roll Damping, Probabilistic Assessment of Ship Capsize, Environmental Modelling, Damaged Ship Stability, CFD Applications, Design for Safety, Naval Vessels, and Accident Investigations.

This book guides naval architects from the first principles of the physics of control surface operation, to the use of experimental and empirical data and applied computational fluid dynamic modelling of rudders and control surfaces.
The empirical and theoretical methods applied to control surface design are described in depth and their use explained through application to particular cases. The design procedures are complemented with a number of worked practical examples of rudder and control surface design.
The online companion site contains an extensive modelling data library, plus software for theoretical control surface design, based on over 25 years of world-class research at the University of Southampton, an incredible resource for engineers in this field.
- The only text dedicated to marine control surface design
- Provides experimental, theoretical and applied design information valuable for practising engineers, designers and students
- Accompanied by an online extensive experimental database together with software for theoretical
predictions and design development

Traditionally society has regulated hazardous industries by detailed references to engineering codes, standards and hardware requirements. These days a risk-based approach is adopted. Risk analysis involves identifying hazards, categorizing the risks, and providing the necessary decision support to determine the necessary arrangements and measures to reach a "safe" yet economical operating level. When adopting such an approach the abundance of techniques available to express risk levels can often prove confusing and inadequate. This highly practical guide to safety and risk analysis in Marine Systems not only adds to the current techniques available, but more importantly identifies instances where traditional techniques fall short. Uncertainties that manifest within risk analysis are highlighted and alternative solutions presented. In addition to risk analysis techniques this book addresses influencing elements including: reliability, Maintenance Decision making and Human error. The highly practical approach of this title ensures it is accessible to the widest possible audience