Computational Ship Design.
Roh, Myung-Il.; Lee, Kyu-Yeul.
2017
TA1-2040
Available Online

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Title Computational Ship Design.
Author Roh, Myung-Il.
ISBN 9789811048852
9811048851
9789811048845
9811048843
DOI https://doi.org/10.1007/978-981-10-4885-2
Publication Details Singapore : Springer Singapore, 2017.
Language English
Description 1 online resource (381 pages)
Item Number 10.1007/978-981-10-4885-2 doi
Call Number TA1-2040
Dewey Decimal Classification 620
Summary This book offers an introduction to the fundamental principles and systematic methodologies employed in computational approaches to ship design. It takes a detailed approach to the description of the problem definition, related theories, mathematical formulation, algorithm selection, and other core design information. Over eight chapters and appendices the book covers the complete process of ship design, from a detailed description of design theories through to cutting-edge applications. Following an introduction to relevant terminology, the first chapters consider ship design equations and models, freeboard calculations, resistance prediction and power estimation. Subsequent chapters cover topics including propeller deign, engine selection, hull form design, structural design and outfitting. The book concludes with two chapters considering operating design and economic factors including construction costs and fuel consumption. The book reflects first-hand experiences in ship design and R & D activities, and incorporates improvements based on feedback received from many industry experts. Examples provided are based on genuine case studies in the field. The comprehensive description of each design stage presented in this book offers guidelines for academics, researchers, students, and industrial manufactures from diverse fields, including ocean engineering and mechanical engineering. From a commercial point of view the book will be of great value to those involved in designing a new vessel or improving an existing ship.
Note 6.8.1 Selection of Main Engine.
Bibliography, etc. Note Includes bibliographical references and index.
Access Note Access limited to authorized users.
Digital File Characteristics text file PDF
Source of Description Description based on print version record.
Added Author Lee, Kyu-Yeul.
Available in Other Form Computational Ship Design.
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
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Preface; Contents; Chapter 1: Introduction; 1.1 Generals; 1.2 Basic Requirements and Functions of a Ship; 1.3 Ship Terminologies; 1.3.1 Principal Dimensions; 1.3.2 Ship Components; 1.3.3 Weight and Volume; 1.3.4 Speed and Power; 1.4 Design Stages; References; Chapter 2: Analysis of Ship Ownerś Requirements; 2.1 Generals; 2.2 Ship Ownerś Requirements; 2.3 Survey of Parent Ships; 2.4 Review of Rules and Regulations; 2.4.1 IMO (International Maritime Organization); 2.4.2 Classification Societies; 2.4.3 Administrations; References; Chapter 3: Design Constraints; 3.1 Generals.

3.2 Physical Constraint3.3 Economical Constraints; 3.3.1 Volume Equation; 3.3.2 Service Speed and DFOC (Daily Fuel Oil Consumption); 3.4 Regulatory Constraints; 3.4.1 Required Freeboard; 3.4.2 Required Stability; 3.5 Computational Guide; 3.5.1 Weight Equation; 3.5.2 Volume Equation; 3.5.3 Required Freeboard; 3.5.4 Required Stability; References; Chapter 4: Estimation of Lightweight; 4.1 Generals; 4.2 Method 1: Using the Lightweight of Parent Ship; 4.3 Method 2: Using the Ratio of Deadweight to Total Weight; 4.4 Method 3: Using the Length, Breadth, and Depth.

4.5 Method 4: Dividing into Structural, Outfit, and Machinery Weights4.5.1 Structural Weight (Ws); 4.5.2 Outfit Weight (Wo); 4.5.3 Machinery Weight (Wm); 4.5.4 Lightweight; 4.6 Computational Guide; 4.6.1 Method 1; 4.6.2 Method 2; 4.6.3 Method 3; 4.6.4 Method 4; References; Chapter 5: Prediction of Resistance and Power; 5.1 Generals; 5.2 Ship Resistance; 5.3 Methods for Prediction of Resistance; 5.4 Prediction of Resistance by Holtrop and Mennenś Method; 5.4.1 Frictional Resistance (RF); 5.4.2 Appendage Resistance (RAPP); 5.4.3 Wave Resistance (RW).

5.4.4 Additional Pressure Resistance of Bulbous Bow (RB)5.4.5 Additional Pressure Resistance of Immersed Transom (RTR); 5.4.6 Model-Ship Correlation Resistance (RA); 5.4.7 Total Resistance (RT); 5.5 Prediction of Propulsion Factors; 5.5.1 Propulsive Efficiency (etaD); 5.5.2 Propeller Efficiency in Open Water (etaO); 5.5.3 Hull Efficiency (etaH); 5.5.4 Relative Rotative Efficiency (etaR); 5.5.5 Wake Fraction Coefficient (w); 5.5.6 Thrust Deduction Coefficient (t); 5.6 Power Prediction; 5.6.1 Effective Horse Power (EHP); 5.6.2 Thrust Horse Power (THP); 5.6.3 Delivered Horse Power (DHP).

5.6.4 Shaft Horse Power (SHP)5.6.5 Brake Horse Power (BHP); 5.6.6 Normal Continuous Rating (NCR); 5.6.7 Maximum Continuous Rating (MCR); 5.7 Computational Guide; 5.7.1 Method for Prediction of Resistance; 5.7.2 Method for Prediction of Propulsion Factors; 5.7.3 Method for Prediction of Power; References; Chapter 6: Selection of Main Engine; 6.1 Generals; 6.2 Characteristics of Diesel Engine; 6.3 Power and Speed of Engine; 6.4 Layout Diagram of Engine; 6.5 Selection of Main Engine; 6.6 Estimation of DFOC; 6.7 Estimation of Capacity of Fuel Oil; 6.8 Computational Guide.

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