For more than a decade this annual volume has provided an authoritative summary of all the developments in the world's navies and their ships in the previous twelve months. It combines regional surveys with major articles on important new warships and looks at wider issues of significance to navies such as aviation and weaponry. The contributors come from around the globe and as well as providing a balanced picture of naval developments, they interpret their significance and explain their context.

As well as its regular regional reviews, the 2024 volume focuses on three fleets: the Brazilian Navy, the Hellenic Navy and the Royal Navy. There are in-depth articles on the French Auguste Benebig class of overseas patrol vessels, the Indian P15A & P15B Kolkata/Visakhapatnam class destroyers, and the Spanish S-80 Class Isaac Peral class submarines. The third regular section of the volume is devoted to reviews of important technological developments around the world. David Hobbs looks at aspects of naval aviation and focusses on U.S. unmanned systems. Norman Friedman outlines developments in naval propulsion systems, while Richard Scott analyzes the Kongsberg/Raytheon naval strike missile.

Now firmly established as the only annual naval overview of its type in the world, The Seaforth World Naval Review is essential reading for professional and enthusiast alike. It takes the reader to the heart of contemporary maritime affairs.

The story of Leith-built ships continues in this third volume from just after the conclusion of World War Two to 1965. However, the world was different; the men came back from the front and those women who had been working in the shipyards lost their jobs. All shipyards were experiencing full order books, replacing, or repairing ships lost or damaged in the conflict, but the industry was changing albeit slowly at first. The advent of electric welding would eventually change the way ships were built leading to the demise of the Rivet Squad, which was replaced as a cost cutting exercise as it became the accepted method of ship construction. Henry Robb Shipyard participated in the massive new shipbuilding programme with a great many vessels being ordered from two of the largest customers of the yard. Many orders came from the giant Ellerman Lines, while a great many more were ordered by other customers, such as the Union Steamship Company of New Zealand. The Admiralty also remained a customer and a few large supply ships would be built in this time. In this volume the author has not forgotten the people who were the very fabric of the yard and community. Personal accounts are included from those who built or sailed on these vessels. This is the story of a mighty industry, but one which nonetheless had begun its decline. In the century from 1893, this nation went from producing 80% of all the worlds' commercial ships to producing no commercial ships at all. It is a sad fact, but this volume keeps alive the story of the Leith-built ships and the vibrant industry that once existed.

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.

Merchant Ship Types provides a broad and detailed introduction to the classifications and main categories of merchant vessels for students and cadets. It introduces the concept of ship classification by usage, cargo type, and size, and shows how the various size categories affect which ports and channels the types of vessels are permitted to enter. Detailed outlines of each major vessel category are provided, including: Feeder ship General cargo vessels Container ships Tankers Dry bulk carriers Multi-purpose vessels Reefer ships Roll-on/roll-off vessels The book also explains where these are permitted to operate, the type of cargoes carried, and specific safety or risk factors associated with the vessel class, as well as their main characteristics. Relevant case studies are presented. The textbook is ideal for merchant navy cadets at HNC, HND, and foundation degree level in both the deck and engineering branches, and serves as a general reference for insurance, law, logistics, offshore and fisheries.

Extensively updated for the second edition, this handy guide covers the safety engineering of ship-shaped offshore installations at every stage of design, construction, operation, lifetime healthcare and decommissioning. New sections cover additional types of offshore structures, including offshore power plants, as well as cutting-edge technologies and all the latest advances in the field. The text focuses on minimising accidents and the effects of extreme conditions, with new chapters covering earthquakes, hurricanes and terrorist attacks, as well as traditional types of accidental events such as hull girder collapse, collisions, fires and explosions. This is an invaluable resource for students who will be approaching the subject for the first time as well as practising engineers and researchers.

Shipbuilding in the United Kingdom provides a systematic historical account of the British Shipbuilders Corporation, first looking at this major industry under private enterprise, then under state control, and finally back in private hands. The chapters trace the evolution of public policy regarding shipbuilding, ship repair, and large marine engine building through the tenures of radically different Labour and Conservative governments, and through the response of the board of the British Shipbuilders Corporation, trade unions, and local management also. The book benefits from comprehensive archival research and interviews from the 1990s with leading players in the industry, as well as politicians, shipbuilders, trade union leaders, and senior civil servants. This authoritative monograph is a valuable resource for advanced students and researchers across the fields of business history, economic history, industrial history, labour history, maritime history, and British history.

This accessible reference introduces firefighting and fire safety systems on ships and is written in line with the IACS Classification Rules for Firefighting Systems. It covers the design, construction, use and maintenance of firefighting and fire safety systems, with cross references to the American Bureau of Shipping rules and various Classification Society regulations which pertain to specific Classification Society rules. Focuses on basic principles in line with current practice Aimed at non-specialists The book suits professional seafarers, students, and cadets, as well as leisure sailors and professionals involved in the logistics industry. It is also particularly useful for naval architects, ship designers, and engineers who need to interpret the Class rules when developing shipboard firefighting systems.

This book is a companion to Volume 8 - General Engineering Knowledge in the "Reed's Marine Engineering Series", and is based on the DoT sylabus of Engineering Knowledge for the Class 2 and Class 1 Engineers Steam Certificates and Steam Endorsements. It includes a selection of questions of the type set in the exams for Class 2 and Class 1 Engineers.

Introduction to Ship Engine Room Systems outlines the key systems, machinery and equipment found in a ship's engine room. It explores the basics of their function with overall practical guidance for engine room operation and maintenance, recognising emerging environmental challenges. It covers the following topics: The role and function of the steering and propulsion systems Power generation The heating, ventilation, and air conditioning systems The water management system Engine room fires and emergency response systems Engine room watch procedures and checklists The book serves as an accessible introductory text for engineering students at HNC, HND, and foundation degree level, marine engineering cadets, and non-engineering marine professionals such as deck officers and cadets who want a general guide to how the engine room functions.

Merchant Ship Types provides a broad and detailed introduction to the classifications and main categories of merchant vessels for students and cadets. It introduces the concept of ship classification by usage, cargo type, and size, and shows how the various size categories affect which ports and channels the types of vessels are permitted to enter. Detailed outlines of each major vessel category are provided, including: Feeder ship General cargo vessels Container ships Tankers Dry bulk carriers Multi-purpose vessels Reefer ships Roll-on/roll-off vessels The book also explains where these are permitted to operate, the type of cargoes carried, and specific safety or risk factors associated with the vessel class, as well as their main characteristics. Relevant case studies are presented. The textbook is ideal for merchant navy cadets at HNC, HND, and foundation degree level in both the deck and engineering branches, and serves as a general reference for insurance, law, logistics, offshore and fisheries.

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.

Smart shipping is a future method for transporting ocean cargo and exploring the resources of oceans for medical drugs, food, energy resources, and other products. A smart ship is an integration of shipping with many fields such as fishing, manufacturing, navigation, communication, computing, control, sensing, etc., to provide better shipping and services. The purpose of this edited book is to provide state-of-the-art approaches and novel technologies for smart ships, covering a range of topics in these areas so that it will be an excellent reference book for the researchers, students, and professionals in these areas. It presents the fundamental technologies needed to build smart ships, and gives a clear explanation of them. This book will serve as a good reference for researchers to know the state of the art and to discover uncovered territory and develop new applications, as well as being a guideline for building future smart ships. Yang Xiao is a Full Professor in the Department of Computer Science at the University of Alabama, Tuscaloosa, Alabama, USA. Tieshan Li is a Full Professor in the School of Automation Engineering, University of Electronic Science and Technology of China, Chengdu, China.

The environmental and human costs of marine accidents are high, and risks are considerable. At the same time, expectations from society for the safety of maritime transportation, like most other activities, increase continuously. To meet these expectations, systematic methods for understanding and managing the risks in a cost-efficient manner are needed. This book provides readers with an understanding of how to approach this problem. Firmly set within the context of the maritime industry, systematic methods for safety management and risk assessment are described. The legal framework and the risk picture within the maritime industry provide necessary context. Safety management is a continuous and wide-ranging process, with a set of methods and tools to support the process. The book provides guidance on how to approach safety management, with many examples from the maritime industry to illustrate practical use. This extensively revised new edition addresses the needs of students and professionals working in shipping management, ship design and naval architecture, and transport management, as well as safety management, insurance and accident investigation.

During the French Revolutionary and Napoleonic Wars, the technology employed by the British navy changed not just the material resources of the British navy but the culture and performance of the royal dockyards. This book examines the role of the Inspector General of Naval Works, an Admiralty office occupied by Samuel Bentham between 1796 and 1807, which initiated a range of changes in dockyard technology by the construction of experimental vessels, the introduction of non-recoil armament, the reconstruction of Portsmouth yard, and the introduction of steam-powered engines to pump water, drive mass-production machinery and reprocess copper sheathing. While primarily about the technology, this book also examines the complementary changes in the industrial culture of the dockyards. For it was that change in culture which permitted the dockyards at the end of the Wars to maintain a fleet of unprecedented size and engage in warfare both with the United States of America and with Napoleonic Europe.

Unmanned ships and autonomous ships are quickly becoming a reality, making shipping safer and more efficient. However, traditional tasks and functions are becoming blurred as new technology changes how the unique needs of different sectors are met. In addition to large vessels dedicated to the transport of goods and cargos across the oceans, major efforts are underway towards the automation of small coastal shipping that includes ferries, tugboats, supply and service vessels, and barges. Automated vehicles are also replacing conventional ships for inspecting and servicing pipelines, drilling platforms, wind farms and other offshore installations. Automated shipping is explored in terms of economics, technology, safety and the environment under the broad themes of ship design and engineering, command and control, navigation, communications, security, regulatory issues, and training. This includes initiatives for autonomous shipping as well as civilian implications of military ship automation programs. This book is primarily for maritime professionals, regulatory authorities, insurers, and environmental groups. It also suits undergraduate students involved in deck officer training, and graduate students and academics involved in research in ship design, operations and management.

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.

1) Demonstrates alternative definitions of the fuzzy safety factor 2) Explains properties of materials and their structural deterioration 3) Covers optimal probabilistic design 4) Aids the reader in solving problems associated with uncertainty

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.

The environmental and human costs of marine accidents are high, and risks are considerable. At the same time, expectations from society for the safety of maritime transportation, like most other activities, increase continuously. To meet these expectations, systematic methods for understanding and managing the risks in a cost-efficient manner are needed. This book provides readers with an understanding of how to approach this problem. Firmly set within the context of the maritime industry, systematic methods for safety management and risk assessment are described. The legal framework and the risk picture within the maritime industry provide necessary context. Safety management is a continuous and wide-ranging process, with a set of methods and tools to support the process. The book provides guidance on how to approach safety management, with many examples from the maritime industry to illustrate practical use. This extensively revised new edition addresses the needs of students and professionals working in shipping management, ship design and naval architecture, and transport management, as well as safety management, insurance and accident investigation.