The loading of vessels to secure maximum security and seakindliness is of vital importance to fishermen. This book deals with this important subject in detail and is intended as a textbook for preparing for masters and mates certficates. It also affords practical guidance to the fisheman or smallboat owner. Since it was first published, much of its advice and many of the principles behind its recommendation have become officially adopted, nationally and internationally.

This textbook provides readers with an understanding of the basics of ship stability as it has been enacted in international law. The assessment of ship stability has evolved considerably since the first SOLAS convention after the sinking of the RMS Titanic, and this book enables readers to familiarise themselves with the most up-to-date modern day methodology, as well as looking ahead to the effects on ship design over the next fifty years. The author not only explains the methodology of probabilistic ship damage as required by the International Maritime Organisation (IMO), but also details the new requirements to assess certain sizes and classes of ships to the seven second-generation ship stability requirements. Many textbooks that are currently used by undergraduates focus on the geometric-centric deterministic approach to the assessment of ship stability, whereas this book also includes material on the classes of ships that are now required to have probabilistic ship damage assessment, as has only recently been agreed by the IMO. Basic Naval Architecture: Ship Stability contains up-to-date information, making it ideal for university students studying ocean or marine engineering, as well as being of interest to students on naval architecture and ship science courses. Highly illustrated and including chapter studies for ease of learning, the book is an ideal one-volume textbook for students.

A beautifully illustrated history of the iconic ocean-going gunboats of British 'gunboat diplomacy', the hundreds of little warships that for 50 years demonstrated the power of the Royal Navy worldwide, and which maintained and enforced the rule of the British Empire at its peak. In recent years the phrase 'gunboat diplomacy' has been used to describe the crude use of naval power to bully or coerce a weaker nation. During the reign of Queen Victoria, 'gunboat diplomacy' was viewed very differently. It was the use of a very limited naval force to encourage global stability and to protect British overseas trade. This very subtle use of naval power was a vital cornerstone of the Pax Britannica. Between the Crimean War (1854-56) and 1904, when the gunboat era came to an abrupt end, the Royal Navy's ocean-going gunboats underpinned Britain's position as a global power and fulfilled the country's role as a 'global policeman'. Created during the Crimean War, these gunboats first saw action in China. However, they were also used to hunt down pirates in the coasts and rivers of Borneo and Malaya, to quell insurrections and revolts in the Caribbean or hunt slavers off the African coast. The first gunboats were designed for service in the Crimean War, but during the 1860s a new generation of ships began entering service - vessels designed specifically to fulfill this global policing role. Better-designed gunboats followed, but by the 1880s, the need for them was waning . The axe finally fell in 1904 when Admiral 'Jackie' Fisher brought the gunboat era to an end in order to help fund the new age of the dreadnought. This exciting New Vanguard title describes the rise and fall of the gunboat, the appearance and capability of these vital warships, and what life was like on board. It also examines key actions they were involved in.

This SpringerBrief focuses on modeling and power evaluation of high-speed craft. The various power prediction methods, a principal design objective for high-speed craft of displacement, semi-displacement, and planing type, are addressed. At the core of the power prediction methods are mathematical models for resistance and propulsion efficiency. The models are based on the experimental data of various high-speed hull and propeller series. The regression analysis and artificial neural network (ANN) methods are used as an extraction tool for this kind of mathematical models. A variety of mathematical models of this type are discussed in the book. Once these mathematical models have been developed and validated, they can be readily programmed into software tools, thereby enabling the parametric analyses required for the optimization of a high-speed craft design. This book provides the foundational reference for these software tools, and their use in the design of high-speed craft. High-speed craft are very different from conventional ships. Current professional literature leaves a gap in the documentation of best design practices for high-speed craft. This book is aimed at naval architects who design and develop various types of high-speed vessels.

This work is significant. It is the first to include a method of assessing structural strength in the context of the modern marine environment.
--Commander M. C. Cruder, U.S. Coast Guard

Acclaimed author and naval architect Dave Gerr created this unique system of easy-to-use scantling rules and rules-of-thumb for calculating the necessary dimensions, or scantlings, of hulls, decks, and other boat parts, whether built of fiberglass, wood, wood-epoxy composite, steel, or aluminum. In addition to the rules themselves, The Elements of Boat Strength offers their context: an in-depth, plain-English discussion of boatbuilding materials, methods, and practices that will guide you through all aspects of boat construction.

Now you can avoid wading through dense technical engineering manuals or tackling advanced mathematics. The Elements of Boat Strength has all the formulas, tables, illustrations, and charts you need to judge how heavy each piece of your boat should be in order to last and be safe. With this book, an inexpensive scientific calculator, and a pad of paper, youll be able to design and specify all the components necessary to build a sound, long-lasting, rugged vessel.

What reviewers have said about Dave Gerrs books:

Propeller Handbook

By far the best book available on the subject.--Sailing

The best laymans guide weve ever read.--Practical Sailor

Dave Gerr and International Marine made a complicated topic understandable and put it into a handbook that is easy to use.--WoodenBoat

Without doubt the definitive reference for selecting, installing, and understanding boat propellers.--Royal Navy Sailing Association Journal

The Nature of Boats

If you are not nautically obsessed before reading this book, you will most certainly be afterward.--Sailing

Fascinating potpourri of information about todays boats, modern and traditional.--WoodenBoat

After completing his studies at Trinity College, Oxford, John Charnock (1756-1807) joined the Royal Navy as a volunteer. Though details of his career at sea are lacking, he is known to have embarked on assiduous research into historical and contemporary naval affairs, and he cultivated contacts with many serving officers. His six-volume Biographia Navalis (1794-8), flawed yet still useful, is also reissued in the Cambridge Library Collection. Published in three volumes from 1800 to 1802, the present work stands as the first serious study of naval architecture in Britain in particular, while also noting major developments in Europe and beyond. The volumes are illustrated throughout with numerous designs of vessels. Volume 1 (1800) traces the origins of marine architecture and how it was affected by commerce and war, from the ancient Chinese and Egyptians, through the Greeks and Romans, up to the death of Richard III.

After completing his studies at Trinity College, Oxford, John Charnock (1756-1807) joined the Royal Navy as a volunteer. Though details of his career at sea are lacking, he is known to have embarked on assiduous research into historical and contemporary naval affairs, and he cultivated contacts with many serving officers. His six-volume Biographia Navalis (1794-8), flawed yet still useful, is also reissued in the Cambridge Library Collection. Published in three volumes from 1800 to 1802, the present work stands as the first serious study of naval architecture in Britain in particular, while also noting major developments in Europe and beyond. The volumes are illustrated throughout with numerous designs of vessels. Volume 3 (1802) covers changes across the entire eighteenth century, with some discussion of African and Asian examples. The work concludes with various experimental and practical considerations relating to effective shipbuilding and seafaring.

A highly illustrated history of the US Navy's nuclear submarine program, from the postwar years to the 2020 Columbia-class SSBNs. James C. Goodall covers the origins, design and development of the US Navy’s fleet of nuclear-powered submarines. This program was developed under the command of Hiram G. Rickover, the “Father of the Nuclear Navy” who oversaw the commissioning of the very first nuclear-powered attack submarine, the USS Nautilus (SSN 571) in 1952. This was a truly revolutionary design. Until the advent of nuclear power, the world’s submarine fleets traveled on the surface at night to charge their batteries, and only dove below the surface when enemy ships or planes were spotted. With the development of the USS Nautilus, the US Navy now had the ability to stay submerged for not just hours or days, but to hide out of harm’s way for weeks or months at a time This highly illustrated book covers all of the 220+ submarine hulls built and delivered to the US Navy from the USS Nautilus through to the Navy’s newest class of submarine, the Columbia class SSBNs. The story of the Nuclear Navy from its origins up to the present day is told through more than 1,300 images from official and archive sources, as well as the author’s own personal collection, some of which have never been published before.

Buckling and Ultimate Strength of Ship and Ship-like Floating Structures provides an integrated state-of-the-art evaluation of ship structure mechanics including buckling, plastic failure, ultimate strength, and ultimate bending moments. For the design of any industrial product, it is necessary to understand the fundamentals in the failure behavior of structures under extreme loads. Significant developments have been made in understanding the analysis method of plastic collapse and behavior and strength of structures accompanied by buckling. Written by two of the foremost experts in international ship design and ocean engineering, this book introduces fundamental theories and methods as well as new content on the behavior of buckling/plastic collapse that help explain analysis like the initial imperfections produced by welding and the ultimate strength of plates, double bottom structures of bulk carriers, and ship and FPSO hull girders in longitudinal bending. Rounding out with additional coverage on floating structures such as oil and gas platforms and LNG/FLNG structural characteristics, Buckling and Ultimate Strength of Ship and Ship-like Floating Structures is a must-have resource for naval architects and other marine engineering professionals seeking to gain an in-depth understanding of the technological developments in this area.

Buckling of Ship Structures presents a comprehensive analysis of the buckling problem of ship structural members. A full analysis of the various types of loadings and stresses imposed on ship plating and primary and secondary structural members is given. The main causes and consequences of the buckling mode of failure of ship structure and the methods commonly used to control buckling failure are clarified. This book contains the main equations required to determine the critical buckling stresses for both ship plating and the primary and secondary stiffening structural members. The critical buckling stresses are given for ship plating subjected to the induced various types of loadings and having the most common boundary conditions encountered in ship structures. The text bridges the gap existing in most books covering the subject of buckling of ship structures in the classical analytical format, by putting the emphasis on the practical methods required to ensure safety against buckling of ship structural members. It is very useful to ship designers, shipyard engineers, naval architects, international classification societies and also to students studying naval architecture, marine engineering and offshore structures. It is a valuable source for practicing naval architects to quickly check the possibility of buckling of ship structure members without reverting to the complex and costly analysis using advanced FEM software.

When archaeologist John Henry Phillips volunteered with a charity that took D-Day veterans back to Normandy, due to an administrative error he found himself without a hotel room and reliant on the generosity of one of the veterans who had a spare bed. That veteran was Patrick Thomas - and it was an encounter that would change both their lives forever. Patrick's landing craft, LCH 185, had led the first wave into Sword Beach on D-Day, and stayed off Normandy until the 25th June when an acoustic mine sent it to the seabed along with most of the crew. His story transfixed John, and the resulting search for the shipwreck was to consume him. Jumping back and forwards in time, between vivid descriptions of the final days on board LCH 185 and John's thrilling search to find the shipwreck, The Search is an emotional story of a devastating time in history, an unlikely, life-changing friendship and a quest to honour a wartime home and family lost over seventy-five years ago.

The destroyers of the Akizuki "Autumn Moon" class were very different from the standard fleet type of Imperial Japanese Navy destroyers inaugurated with the Fubuki class. They were designed for the protection of the Imperial Japanese Navy's carrier task forces, and in order to achieve this they carried a particularly powerful antiaircraft armament and had an extremely long radius of action. However, only 12 out of a planned number of 39 entered service, and they arrived too late to play a crucial role in the decisive carrier battles of World War II. Despite this, their history is of particular interest since the Akizuki class foreshadowed the postwar fleet escort. This is the history of their design and construction, and it relies heavily on Japanese source material and includes numerous photos and drawings.

Hydrodynamics of High-Speed Marine Vehicles, first published in 2006, discusses the three main categories of high-speed marine vehicles - vessels supported by submerged hulls, air cushions or foils. The wave environment, resistance, propulsion, seakeeping, sea loads and manoeuvring are extensively covered based on rational and simplified methods. Links to automatic control and structural mechanics are emphasized. A detailed description of waterjet propulsion is given and the effect of water depth on wash, resistance, sinkage and trim is discussed. Chapter topics include resistance and wash; slamming; air cushion-supported vessels, including a detailed discussion of wave-excited resonant oscillations in air cushion; and hydrofoil vessels. The book contains numerous illustrations, examples and exercises.

This book summarizes results of longstanding research and scientific contributions from many projects and relevant working groups. It collects and evaluates wind and wave climate projections under changing climate having design needs and marine safety in focus. Potential impact of projected climate change in met-ocean conditions on ships and offshore structures is discussed and illustrated by an example of the expected wave climate change on tanker design.

Themonograph is intended for students, researchers and industry based engineers who want a summary of the many studies that have been carried out on climate change effects on wind and waves and their importance for design and operations of ship and offshore structures. The reader needs only a moderate knowledge of marine wind and wave climate to follow the text."

First published in 1965, this book was written in response to the considerable changes that had taken place in shipbuilding techniques since 1945 and to the new scientific methods that were being increasingly adopted in a strongly competitive market. It describes the advances which had been made in one field of the design of ship structures, a field also of importance in the design of bridges and other rigid structures on land. A grillage is a structure of intersecting beams, usually attached to one side of a continuous plate panel, which is loaded normal to its surface. The decks, bottoms and bulkheads (vertical divisions) of ships are usually flat grillages, and this form of construction is also commonly used in the decks of bridges. The methods of plastic analysis are not directly applicable to plated grillage structures and Mr Clarkson has therefore discussed only elastic methods of design.

The two volumes that comprise this work provide a comprehensive guide and source book on the marine use of composite materials. The first volume, Fundamental Aspects, provides a rigorous development of theory. Areas covered include materials science, environmental aspects, production technology, structural analysis, finite-element methods, materials failure mechanisms and the role of standard test procedures. An appendix gives tables of the mechanical properties of common polymeric composites and laminates in marine use. The second volume, Practical Considerations, examines how the theory can be used in the design and construction of marine structures, including boats, submersibles, offshore structures and other deep-ocean installations.

The two volumes that comprise this work provide a comprehensive guide and source book on the marine use of composite materials. This second volume, Practical Considerations, examines how the theory can be used in the design and construction of marine structures, including ships, boats, offshore structures and other deep-ocean installations. Areas covered in this second volume include design, the role of adhesives, fabrication techniques and operational aspects such as response to slam loads and fatigue performance. The final three chapters of the book cover regulatory aspects of design, quality and safety assessment and management and organisation. These volumes will provide an introduction to this important and fast-growing area for students and researchers in naval architecture and maritime engineering. It will also be of value to practising engineers as comprehensive reference book.

Employing superb, clear draughtsmanship this book illustrates each and every detail of the rigging of typical period fore-and-aft vessels. The rigging of period ship models is arguably the most complex task that any modeller has to accomplish; the intricacies can be daunting and visual references limited. The author's first book, Rigging Period Ship Models, was a triumph of clarity for those needing to decipher the complexities of square rig and has now sold in multiple editions. This book does the same for fore-and-aft craft and deploys three typical eighteenth-century types - an English cutter, a three-masted French lugger and an American schooner. Some 200 diagrams show clearly where each separate item of standing and running rigging is fitted, led and belayed. Whatever the requirements of the modelmaker, all the information is here. This new PB edition brings a visual clarity to the complexities of period rigging and will delight anyone with an interest in the rigging of traditional fore-and-aft craft.

This is a groundbreaking, technical analysis of yacht design, linked to the theory and testing of how a sailing yacht behaves underway. It is cutting edge - the author (a world expert in the field) has drawn his conclusions from years of research, analytical testing in wind tunnels and tanks, and his results represent the state of the art in performance prediction which underlies all modern yacht design. State of the art and with a revolutionary modern approach, Aero-hydrodynamics and the Performance of Sailing Yachts provides a systematic and completely up to date analysis, complete with colour photographs and diagrams throughout. An essential, and long awaited, work for all professional yacht designers, racing sailors and students of yacht design.

The term 'pre-dreadnought' was applied in retrospect, to describe the capital ships built during the decade and a half before the launch of HMS Dreadnought in 1906. At that moment these once great warships were rendered obsolete. However, until then, they were simply called 'battleships' and were unquestionably the most powerful warships of their day. These mighty warships represented the cutting edge of naval technology. The ugly ducklings of the ironclad era had been transformed into beautiful swans, albeit deadly ones. In Britain, this period was dominated by Sir William White, the Navy's Chief Constructor. Under his guidance the mastless battleships of the 1880s gave way to an altogether more elegant type of capital ship. The period of trial and error which marked the ironclad era ushered in a more scientific style of naval architecture. As a result, these battleships were among the most powerful warships in the world during the late Victorian era, and set a benchmark for the new battle fleets produced by navies such as Japan, Russia and the United States. Illustrated throughout with full-colour artwork, this fascinating study offers a detailed and definitive guide to the design, development and legacy of the Royal Navy's battleships at the turn of the 20th century as they paved the way for the coming of the Dreadnought.

Fundamentals of Ship Hydrodynamics: Fluid Mechanics, Ship Resistance and Propulsion Lothar Birk, University of New Orleans, USA Bridging the information gap between fluid mechanics and ship hydrodynamics Fundamentals of Ship Hydrodynamics is designed as a textbook for undergraduate education in ship resistance and propulsion. The book provides connections between basic training in calculus and fluid mechanics and the application of hydrodynamics in daily ship design practice. Based on a foundation in fluid mechanics, the origin, use, and limitations of experimental and computational procedures for resistance and propulsion estimates are explained. The book is subdivided into sixty chapters, providing background material for individual lectures. The unabridged treatment of equations and the extensive use of figures and examples enable students to study details at their own pace. Key features: Covers the range from basic fluid mechanics to applied ship hydrodynamics. Subdivided into 60 succinct chapters. In-depth coverage of material enables self-study. Around 250 figures and tables. Fundamentals of Ship Hydrodynamics is essential reading for students and staff of naval architecture, ocean engineering, and applied physics. The book is also useful for practicing naval architects and engineers who wish to brush up on the basics, prepare for a licensing exam, or expand their knowledge.

The Kriegsmarine's Scharnhorst was a German capital ship, described either as a battleship or battlecruiser, and the lead ship of her class, which included one other ship, Gneisenau. She was launched on 3 October 1936 and completed in January 1939, armed with nine 28cm C/34 guns in three triple turrets. She operated with Gneisenau for much of the early portion of World War II, including sorties into the Atlantic to raid British merchant shipping. They took part in Operation Weserubung (April-June 1940), the German invasion of Norway, during which they sank the aircraft carrier HMS Glorious and her escort destroyers Acasta and Ardent. Scharnhorst also sank HMS Rawalpindi in November 1939. In early 1943, Scharnhorst joined the Tirpitz in Norway to intercept Allied convoys to the Soviet Union. On a sortie from Norway to attack a convoy, the German force was intercepted by British ships and during the Battle of the North Cape (26 December 1943), HMS Duke of York and her escorts sank Scharnhorst. Most of her crew was lost. This is the most comprehensive examination of Scharnhorst ever published, drawing on new research and technology to tell the full story of the ship. It includes a complete set of detailed line drawings with fully descriptive keys and full-colour 3D artwork, supported by technical details, photographs, and text on the building of the ship, as well as a record of her service history.

Hydrodynamics of High-Speed Marine Vehicles discusses hydrodynamic aspects of the three main categories of high-speed marine vehicles, i.e. vessels supported by either the submerged hull, an air cushion or foils. Submerged-hull-supported vessels include planing and semi-displacement vessels. The wave environment, resistance, propulsion, seakeeping, sea loads and maneuvering are extensively covered based on rational and simplified methods. Links to automatic control and structural mechanics are emphasized. A detailed description of waterjet propulsion is given, and the effect of water depth on wash, resistance, sinkage and trim is discussed. Chapter topics include resistance and wash, slamming, air-cushion supported vessels including a detailed discussion of wave-excited resonant oscillations in the air cushion, and hydrofoil vessels including practical aspects as well as foil theory. The book contains many illustrations, examples and exercises. Knowledge about the water flow is important in the structural design and is essential in the construction of an automatic motion control system.

A ship is a flexible structure that moves bodily and distorts when it encounters waves. This behaviour is potentially dangerous and it must therefore be predicted as a necessary part of ship design. Hitherto the theory of ship structures has had to employ simplifying assumptions, and the dynamical theory has been founded largely on the assumption of rigidity. This book, however, shows how the wave responses of a ship can be calculated using linear dynamics. This general treatment adapts the techniques of structural theory, hydrodynamics, oceanography and statistical theory to the needs of naval architecture. In a radically new departure the authors unify these various techniques in their systematic use of dynamical theory. The principles are applicable to offshore structures in general as well as to ships.

The last predreadnought battleships of the US Navy were critical to the technological development of US battleships, and they were the first tool of international hard power wielded by the United States, a nation which would eventually become the world's dominant political and military power of the 20th century. These battleships were the stars of the 1907-09 Great White Fleet circumnavigation, in which the emerging power and reach of the US Navy was displayed around the world. They also took part in the bombardment and landings at Veracruz, some served as convoy escorts in World War I, and the last two were transferred to the Hellenic Navy and were sunk during World War II. This book examines the design, history, and technical qualities of the final six classes of US predreadnought battleships, all of which were involved in the circumnavigation of the Great White Fleet. These classes progressively closed the quality gap with European navies - the Connecticuts were the finest predreadnought battleships ever built - and this book also compares and contrasts US predreadnought battleships to their foreign contemporaries. Packed with illustrations and specially commissioned artwork, this is an essential guide to the development of US Navy Battleships at the turn of the twentieth century.