Search Results - cargo ship
Suggested Topics within your search.
Suggested Topics within your search.
- Computational Science and Engineering 1
- Computer-Aided Engineering (CAD, CAE) and Design 1
- Computer-aided engineering 1
- Data processing 1
- Engineering 1
- Engineering Design 1
- Engineering design 1
- Engineering mathematics 1
- Harbors--Design and construction 1
- Mathematical and Computational Engineering Applications 1
- Mathematical physics 1
- Mathematics 1
- Theoretical, Mathematical and Computational Physics 1
- Traffic engineering 1
- Transportation Technology and Traffic Engineering 1
- Transportation engineering 1
-
1
Computational Ship Design
Published 2018Table of Contents: “…Preface -- 1 Introduction -- 2 Analysis of Ship Owner's Requirements -- 3 Design Constraints -- 4 Estimation of Lightweight -- 5 Prediction of Resistance and Power -- 6 Selection of Main Engine -- 7 Determination of Principal Dimensions of Propeller -- 8 Estimation of Capacity of Cargo Hold -- 9 Calculation of Freeboard -- 10 Determination of Principal Dimensions -- 11 Hull Form Design -- 12 General Arrangement Design -- 13 Hull Structural Design -- 14 Outfitting Design -- 15 Economic Evaluation -- 16 Example of Determination of Principal Dimensions -- 17 Examples of Ship Design Model -- A.1. …”
Full-text access
View in OPAC
e-Book -
2
Design of Marine Facilities : Engineering for Port and Harbor Structures.
Published 2016Table of Contents: “…Intro -- Contents -- Foreword -- Preface -- Acknowledgments -- Notations -- Nomenclature -- Chapter 1: Introduction -- 1.1 Scope and Purpose -- 1.2 Marine Civil Engineering -- 1.3 Port and Harbor Facilities -- 1.4 Design of Marine Facilities -- 1.5 Design Guidance and Information Sources -- References -- Chapter 2: Vessel Characteristics and Dimensions -- 2.1 Definitions -- 2.2 Hull Form and Features -- 2.3 Hull Construction -- 2.4 Vessel Types and Dimensions -- References -- Chapter 3: General Design Considerations -- 3.1 Design Criteria and General Considerations -- 3.2 Site Selection and Layout -- 3.3 Facility-Type Requirements -- 3.4 Environmental Conditions -- 3.5 Materials for Marine Construction -- References -- Chapter 4: Operational and Environmental Loads -- 4.1 Cargo Loads -- 4.2 Vehicular and Mobile Equipment Loads -- 4.3 Rail-Mounted and Material-Handling Equipment -- 4.4 Port Buildings and Miscellaneous Structures -- 4.5 Environmental Loads -- 4.6 Seismic Loads and Ground Motions -- 4.7 Tsunami Effects in Ports -- 4.8 Other Load Sources and Design Considerations -- Acknowledgments -- References -- Chapter 5: Berthing Loads and FenderSystem Design -- 5.1 Berthing Fundamentals -- 5.2 Berthing Ship Geometry -- 5.3 The Added Mass Factor -- 5.4 Berthing Impact Energy Determination -- 5.5 Fender System Types and Selection -- 5.6 Fender System Layout and Design -- 5.7 Fender Materials and Specifications -- References -- Chapter 6: Mooring Loads and Design Principles -- 6.1 Mooring Principles -- 6.2 Mooring Analysis -- 6.3 Mooring Lines -- 6.4 Mooring Hardware and Equipment -- 6.5 Wind Forces -- 6.6 Current Forces -- 6.7 Passing Vessel Effects -- 6.8 Wave Loads and Vessel Motions -- 6.9 Analytical Treatment and Modeling -- 6.10 Physical Model Testing -- 6.11 Operational Considerations -- References -- Chapter 7: Design of Fixed Structures.…”
Full-text access
View in OPAC
e-Book