Discusses linear, planar, and volume array theory; including near-field and far-field beam patterns, beam steering, and array focusing Presents the twin-line planar array and a linear array of triplets which are solutions to the port/starboard (left/right) ambiguity problem associated with linear towed arrays Explains the fundamentals of side-looking (side-scan) and synthetic-aperture sonars Examines the signal design of CW, LFM, and HFM pulses for range and Doppler estimation Explains the fundamentals of underwater acoustic communication signals such as MFSK, MQAM, and OFDM signals Discusses bistatic scattering for moving platforms with derivations of exact solutions for the time delay, time-compression/time-expansion factor, and Doppler shift at a receiver for both the scattered and direct acoustic paths Discusses target detection in the presence of reverberation and noise

Sustainable Development and Innovations in Marine Technologies includes the papers presented at the 19th International Congress of the International Association of the Mediterranean (IMAM 2022, Istanbul, Turkey, 26-29 September 2022), one of the major conferences in maritime industry. The Congress has a history of more than forty years since the first Congress was held in Istanbul in 1978. IMAM 2022 is the fourth congress hosted by Istanbul in its history. The IMAM congresses concentrate their activities in the thematic areas of Ship Building and Repair; Maritime Transportation and Logistics; Hydrodynamics, Marine Structures; Machinery and Control, Design and Materials; Marine Environment; Safety of Marine Systems; Decarbonisation and Digitalization; Off-shore and Coastal Development; Noise and Vibration; Defense and Security; Off-shore Renewable Energy. Sustainable Development and Innovations in Marine Technologies is essential reading for academics, engineers and all professionals involved in sustainable and innovative marine technologies.

As the volume of marine big data has increased dramatically, one of the main concerns is how to fully exploit the value of such data in the development of marine economy and marine science and technology.The book covers data acquisition, feature classification, processing and applications of marine big data in evaluation and decision-making, using case studies such as storm surge and marine oil spill disaster.

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.

Accompanied by an eight-part series, this is the story of Adam Nicolson's adventure in a small boat around the western coast of the British Isles. Early in the year, Adam Nicolson decided to leave his comfy life at home on a Sussex farm and go on an adventure. Equipped with the Auk, a forty-two-foot wooden ketch, and a friend who at least knew how to sail, he set off up the Atlantic coasts of the British Isles: Cornwall to Scilly, over to Pembrokeshire and the west of Ireland, to the Hebrides and its offliers, St Kilda and North Rona, before heading on to Orkney, and finally to the Faroes, a two hundred mile leap out into the autumn winds of the North Atlantic. But the book is not just a travel journal. Adam Nicolson writes of his own yearnings for the sea and for wide open spaces. His year is strung between the competing claims of leaving and belonging, of thinking that no life could be more exhilarating than battling a big gale driving in out of the Atlantic and of wanting to be back, in harbour, safe, still and protected. Running throughout the book is a dialogue within the author himself between the attractions of home and not home, the certainties of what you know and the seductions of what you don't. Reflective and poetic, this book is full of rich experience. It is a story passionately engaged with the beauty and marvels of the wild Atlantic coast, but is also a self-portrait of a man in the middle of his life who is determined to find out what it's all for.

-- Uniquely brings together a broad background of fisheries scientists in one place at one time to address a subject of critical environmental importance. -- The subject of Fisheries Engineering is topical and paramount as larger-scale changes in the earth's ecosystem affect the sustainability of our natural resources. -- Essential reading for fisheries professionals, environmental managers, and academically oriented individuals with interests in fisheries, the environment, and/or sustainable ecosystems, as well as inspiring students with interests in the interaction between fisheries and the environment. -- Should be recommended reading on courses on Fisheries Resource Management, Fisheries Engineering, and Fisheries Science.

Menhaden steamers were double framed, heavily built offshore fishing boats in use during much of the 20th century. As the name implies, they were used to catch menhaden, a member of the herring family used for bait, oil, and fertilizer. Powered by diesel or steam hundreds of these boats fished the waters of the eastern United States, from Maine to the Gulf of Mexico. It was a huge industry employing thousands of people working. During the World Wars many menhaden steamers were pressed into service for the U.S. Navy, searching for submarines among other duties. Today these boats are gone, the plants mostly closed or torn down, and the men retired, but this new book, by boat modeler Steve Rogers, captures the memory of the boat, and allows the reader to recreate it in 1/2-inch scale, resulting in a 56-inch model. With clear drawings, plans, and step-by-step illustrated instructions, the reader moves from carving the hull master, through the authentic steps of construction, to the final painting and rigging of the boat. The result is a model that commemorates a bygone period of maritime history and reflects traditional craftmanship by the proud builder.

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

This book presents the proceedings of CIDIN and COPINAVAL. The papers present the development of the navy, maritime and riverine industry, contributing to the scientific and technological progress and development in the sector. In 2019 the congresses occurred in Cartagena, Colombia, a reference for science and technology innovation for Latin-American naval industry.

The aim of this book is to provide a comprehensive overview of Coastal Engineering from basic theory to engineering practice. The authors of this book are worldwide authorities in the field. Each chapter deals with an important topic in the field of coastal engineering. The topics are of recent deep concern all over the world motivated by the 2004 Indian Ocean Tsunami, 2005 Hurricane Katrina, 2011 Tohoku Earthquake Tsunami and other natural disasters.For proper coastal zone management, a broad range of knowledge is necessary. This book provides a basic understanding of the theories behind the diverse natural phenomena within the coastal areas, such as waves, tsunamis and sediment transport. The book also introduces various coastal conservation technologies such as coastal structures and beach nourishment. Finally, coastal zone management practices in the USA, Europe, and Japan are introduced.Each chapter is self-standing and readers can begin from any topic depending on their interest.

The true story about a shipwreck discovery, exciting explorations, broken alliances, and returning a lost piece of Alaskan history. Since its sinking in 1860 while transporting a valuable cargo of ice, the Kad’yak ship had remained submerged underwater and faded in Alaska’s memory, covered by the legend of an experienced but perhaps rusty sailor and a broken promise to a saint. At the time the ship had been under command of the well-recognized Captain Illarion Arkhimandritov, who had sailed in Alaskan waters for years. It seemed a simple task when he was asked to placate superstitions and honor the late Father Herman, or Saint Herman, on his next visit to Kodiak Island. But Arkhimandritov failed to keep his promise, and shortly thereafter the Kad’yak met its demise in the very waters the captain should have been most familiar with—leaving just the mast above the water in the shape of the cross, right in front of the saint’s grave. Presumed gone or else destroyed, it wasn’t until 143 years later that the Kad’yak was found. In this riveting memoir, scientist Bradley Stevens tells all about the incredible discovery and recovery of the ship—deciphering the sea captain’s muddled journal, digging through libraries and other scientists’ notes, boating over and around the wreck site in circles. Through careful documentation, interviews, underwater photography, and historical research, Stevens recounts the process of finding the Kad’yak, as well as the tumultuous aftermath of bringing the legendary ship’s story to the public—from the formed collaborations to torn partnerships to the legal battles. An important part of Alaska’s history told from Stevens’s modern-day sea expedition, The Ship, the Saint, and the Sailor reveals one of the oldest known shipwreck sites in Alaska discovered and its continuing story today.

First published in 1992. Routledge is an imprint of Taylor & Francis, an informa company.

The book gives a systematical and almost self-contained description of the many facets of envisaging, designing, implementing or experimentally exploring offshore mechatronics and systems along the adequate designs of integrated modeling, safety, control and supervision infrastructure. With the rapid improvements in offshore technologies in various fields such as oil and gas industry, wind energy, robotics and logistics, many researchers in academia and industry have focused on technology-based challenges raised in offshore environment. This book introduces novel theoretical or practical techniques for offshore mechatronics systems. Chapters cover general application model-based systems engineering, wind energy, control systems, mechanics, health monitoring, safety critical human-machine systems, logistics and offshore industrial complexes such as oil and gas operations, robotics, large space structures and autonomous underwater vehicles, and some other advanced technologies. The core feature of this book is that of establishing synergies of modeling, control, computing and mechanics in order to achieve not only robust plant system operation but also properties such as safety, cost, integrity and survivability while retaining desired performance quality. The book provides innovative insights into applications aspects and theoretical understanding of complex offshore mechatronics systems that has emerged in recent years, either via physical implementations or via extensive computer simulations in addition to sound innovated theoretical developments. It will serve as a reference for graduate and postgraduate students and for researchers in all engineering disciplines, including mechanical engineering, electrical engineering and applied mathematics to explore the state-of-theart techniques for solving problems of integrated modeling, control and supervision of complex offshore plants with collective safety and robustness. Thus it shall be useful as a guidance for system engineering practitioners and system theoretic researchers alike.

The aims of the book - written by a practising engineer for practising engineers - are to provide an understanding of the basic principles of sonar and, to develop formulae and "rules of thumb" for sonar design and performance analysis. Ashley Waite uses his long experience in the design, trials and performance analysis of sonar systems to provide practical guidance and solutions to problems encountered by sonar engineers and technicians.

The books divides into the following parts:

• Equipment parameters: the motion of sound in an elastic medium; definitions of sound intensity and source level; the use of projector arrays to increase the source level; the use of hydrophone arrays to improve the signal to noise ratio of a wanted sound.
• The propagation of sound in the sea and the backgrounds to detection: spreading and absorption losses; propagation modes and simple modelling; noise and reverberation; the sonar equations
• Practical sonar systems: passive and active sonar systems; passive broadband, narrowband, intercept and communications (as a special case of intercept) sonars; active sonars for the detection of submarines, mines and torpedoes.

Sonar for Practising Engineers, third edition, covers all aspects of sonar systems and has extensive worked examples. No prior knowledge of sonar is assumed and the physical principles and mathematics will be readily understood by engineers, technicians and students of underwater acoustics. New to this edition, are end-of-chapter exercises and solutions for self assessment and training.

Essentials of Offshore Structures: Framed and Gravity Platforms examines the engineering ideas and offshore drilling platforms for exploration and production. This book offers a clear and acceptable demonstration of both the theory and application of the relevant procedures of structural, fluid, and geotechnical mechanics to offshore structures. It makes available a multitude of "solved problems" and "sample problems to solve" which give readers a strong understanding of the analysis and design of steel-framed and base-supported concrete gravity offshore structures. The book highlights sensible engineering applications for offshore structural design, research, and development; it can also be useful to those working in the design industry.

• The user will have a detailed overview of the various structures used in the offshore environment and the preliminary costing factors that will influence their choice for the site.
• Analytical principles emphasized in the book will help the user to clearly comprehend the various issues that need to be taken into account in the analysis and design of an offshore structure, using the API code.
• The book includes extensive worked-out problems and sample problems for use by the students and instructors, with a Solution Manual.
• The seabed pile/gravity foundation analyses and design are clearly outlined with their embedment characteristics and problems worked out.
• A global description of environmental forces has been given that includes those due to wave, wind, current, tides, earthquakes, ice floe/sheet action, and limit ice-load on Arctic structures.
• The book outlines the various factors that influence the material choice for offshore structures including fatigue and corrosion of the platforms in the ocean environment.

Separate chapters detail the factors that influence the pile embedment and concrete gravity foundation characteristics, material choice including fatigue and corrosion, estimation of ocean environmental forces that will be exerted on the offshore structures, and the analysis fundamentals that the reader needs to possess. The last two chapters give detailed insights into the analysis and design of framed and concrete gravity platform offshore structures using API code procedures. Overall, this book is a comprehensive presentation of the analysis and design of steel and concrete offshore structures.

This book provides a comprehensive description of the latest theory-supported numerical technologies, as well as scientific and engineering applications for water surface waves. Its contents are crafted to cater to a step-by-step learning of computational wave dynamics and ocean wave modeling. It provides a comprehensive description from underlying theories of free-surface flows, to practical computational applications for coastal and ocean engineering on the basis of computational fluid dynamics (CFD).The text may be used as a textbook for advanced undergraduate students and graduate students to understand the theoretical background of wave computations, and the recent progress of computational techniques for free-surface and interfacial flows, such as Volume of Fluid (VOF), Constrained Interpolation Profile (CIP), Lagrangian Particle (SPH, MPS), Distinct Element (DEM) and Euler-Lagrange Hybrid Methods.It is also suitable for researchers and engineers who wish to apply CFD techniques to ocean modeling and practical coastal problems involving sediment transport, wave-structure interaction and surf zone flows.

New Edition: Ocean Surface Waves: Their Physics and Prediction (3rd Edition)The book is an extended and updated edition of the book published in 1996 under the same title (World Scientific, ISBN 9810216866). It contains a very comprehensive and extensive study on surface ocean waves induced by wind, earthquakes and possible landslides and asteroids impacts. The basic mathematical principles, physical description of the observed phenomena, practical forecasting techniques of the various wave parameters and extended application in ocean and coastal engineering, are discussed from the stochastic point of view.All chapters were completely rewritten and supplemented with many new discoveries which were published since the first edition in 1996. In particular, new chapters are added on very interesting and contemporary topics such as: wave breaking mechanisms in deep- and shallow water, freak waves, tsunami, water circulation in porous sea bottom induced by surface waves, and waves propagation through mangrove forests.In terms of numerical modeling, the state of the art of the modern methodology of wave prediction models WAM and SWAN, as well as of the high sophisticated satellite methods of waves measurement and modern methods of signal processing, including wavelets approach and Hilbert Transform approach are presented. The book is supplemented with an extended list of relevant and extended, contemporary bibliography, subject index and author index.

New Edition: Ocean Surface Waves: Their Physics and Prediction (3rd Edition)The book is an extended and updated edition of the book published in 1996 under the same title (World Scientific, ISBN 9810216866). It contains a very comprehensive and extensive study on surface ocean waves induced by wind, earthquakes and possible landslides and asteroids impacts. The basic mathematical principles, physical description of the observed phenomena, practical forecasting techniques of the various wave parameters and extended application in ocean and coastal engineering, are discussed from the stochastic point of view.All chapters were completely rewritten and supplemented with many new discoveries which were published since the first edition in 1996. In particular, new chapters are added on very interesting and contemporary topics such as: wave breaking mechanisms in deep- and shallow water, freak waves, tsunami, water circulation in porous sea bottom induced by surface waves, and waves propagation through mangrove forests.In terms of numerical modeling, the state of the art of the modern methodology of wave prediction models WAM and SWAN, as well as of the high sophisticated satellite methods of waves measurement and modern methods of signal processing, including wavelets approach and Hilbert Transform approach are presented. The book is supplemented with an extended list of relevant and extended, contemporary bibliography, subject index and author index.

There is an increasing need to construct engineering structures in the Arctic seas. The requirement is principally generated by the oil and gas industry, because of the substantial reserves that are known to exist offshore in the Beaufort Sea, the Caspian Sea, the Barents Sea, the Pacific Ocean off the coast of Sakhalin, the Canadian Arctic, and almost certainly elsewhere. Structures have to withstand the severe environmental forces generated by sea ice, a subject that is developing rapidly but is still far from completely understood. Underwater pipelines have to be safe against ice gouging and strudel scour, but also have to be constructed safely and economically. The social and human environment has to be understood and respected.This important book intentionally takes a broad view, and vividly accounts for the many and often subtle interactions between the different factors. It is illustrated by case studies of actual projects.

Developments in Renewable Energies Offshore contains the papers presented at the 4th International Conference on Renewable Energies Offshore (RENEW 2020, Lisbon, Portugal, 12 - 15 October 2020). The book covers a wide range of topics, including: resource assessment; wind energy; wave energy; tidal energy; ocean energy devices; multiuse platforms; PTO design; grid connection; economic assessment; materials and structural design; installation planning and maintenance planning. The book will be invaluable to professionals and academics involved or interested in Offshore Engineering, and Renewable and Wind Energy.

Random waves are the most important constituent of the sea environment, as they make the design of maritime structures quite different from that of structures on land. In this book, the concept of random waves for the design of breakwaters, seawalls, and harbor structures is fully explored for easy comprehension by practicing engineers. Theoretical aspects are also discussed in detail for further studies by graduate students and researchers.

This book details some of the problems experienced in the Soviet petroleum industry and includes a discussion on the downward trend in petroleum production. It reviews a geological assessment of the offshore region and presents a discussion of activities in the Soviet offshore waters.

Trends in the Analysis and Design of Marine Structures is a collection of the papers presented at MARSTRUCT 2019, the 7th International Conference on Marine Structures held in Dubrovnik, Croatia, 6-8 May 2019. The MARSTRUCT series of Conferences started in Glasgow, UK in 2007, the second event of the series having taken place in Lisbon, Portugal in March 2009, the third in Hamburg, Germany in March 2011, the fourth in Espoo, Finland in March 2013, the fifth in Southampton, UK in March 2015, and the sixth in Lisbon, Portugal in May 2017. This Conference series specialises in dealing with Ships and Offshore Structures, addressing topics in the fields of: - Methods and Tools for Loads and Load Effects - Methods and Tools for Strength Assessment - Experimental Analysis of Structures - Materials and Fabrication of Structures - Methods and Tools for Structural Design and Optimisation - Structural Reliability, Safety and Environmental Protection. Trends in the Analysis and Design of Marine Structures is an essential document for academics, engineers and all professionals involved in the area of analysis and design of Ships and Offshore Structures. About the series: The 'Proceedings in Marine Technology and Ocean Engineering' series is devoted to the publication of proceedings of peer-reviewed international conferences dealing with various aspects of 'Marine Technology and Ocean Engineering'. The Series includes the proceedings of the following conferences: the International Maritime Association of the Mediterranean (IMAM) conferences, the Marine Structures (MARSTRUCT) conferences, the Renewable Energies Offshore (RENEW) conferences and the Maritime Technology (MARTECH) conferences. The 'Marine Technology and Ocean Engineering' series is also open to new conferences that cover topics on the sustainable exploration and exploitation of marine resources in various fields, such as maritime transport and ports, usage of the ocean including coastal areas, nautical activities, the exploration and exploitation of mineral resources, the protection of the marine environment and its resources, and risk analysis, safety and reliability. The aim of the series is to stimulate advanced education and training through the wide dissemination of the results of scientific research.