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Reflections on power prediction modeling of conventional high-speed craft

Author: Dejan Radojčić
Publisher: Cham, Switzerland : Springer, [2019]
Series: SpringerBriefs in applied sciences and technology.
Edition/Format:   eBook : Document : EnglishView all editions and formats
Summary:
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  Read more...
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Genre/Form: Electronic books
Additional Physical Format: Print version:
Radojčić, Dejan.
Reflections on power prediction modeling of conventional high-speed craft.
Cham, Switzerland : Springer, [2019]
(OCoLC)1037808076
Material Type: Document, Internet resource
Document Type: Internet Resource, Computer File
All Authors / Contributors: Dejan Radojčić
ISBN: 9783319948997 3319948997 9783319949000 3319949004
OCLC Number: 1050110402
Description: 1 online resource
Contents: Intro; Foreword; Preface; References; Acknowledgements; About this Book; Contents; Abbreviations; Symbols; 1 Introduction; 1.1 Objectives; 1.2 Conventional High-Speed Craft (HSC); 1.3 Resistance, Propulsion, andPower Prediction; 1.4 Common Mistakes; 1.5 Excluded Topics; 1.5.1 Resistance Evaluation Using Empirical Methods; 1.5.2 Resistance Evaluation Using Computational Fluid Dynamics (CFD); 1.5.3 Other Excluded Topics; References; 2 Mathematical Modeling; 2.1 Statistical Modeling; 2.1.1 Statistical Modeling Applied toShip Data; 2.2 Model Extraction Tools; 2.2.1 Regression Analysis 2.2.2 Artificial Neural Network (ANN)2.3 Hardware; 2.4 Conclusions onMathematical Modeling; References; 3 Resistance andDynamic Trim Predictions; 3.1 AnOverview ofEarly Resistance Prediction Mathematical Models; 3.2 Types ofMathematical Models forResistance Prediction; 3.2.1 Random Hull Forms Versus Systematical Hull Forms; 3.2.2 Speed-Independent Versus Speed-Dependent; 3.3 Systematic Series Applicable toConventional High-Speed Craft; 3.4 Mathematical Modeling ofResistance andDynamic Trim forHigh-Speed Craft; 3.4.1 BK and MBK (Yegorov et al. 1978) 3.4.2 Mercier and Savitsky-Transom-Stern, Semi-displacement (Mercier andSavitsky 1973)3.4.3 Transom-Stern, Round Bilge, Semi-displacement (Jin et al. 1980); 3.4.4 62 amp 65-Hard Chine, Semi-planing andPlaning (Radojčić 1985); 3.4.5 VTT-Transom-Stern, Semi-displacement (Lahtiharju et al. 1991); 3.4.6 PHF-Series 62 (Keuning et al. 1993); 3.4.7 NPL (Radojčić et al. 1997); 3.4.8 SKLAD (Radojčić et al. 1999); 3.4.9 Round Bilge andHard Chine (Robinson 1999); 3.4.10 Transom-Stern, Round Bilge (Grubišić andBegović 2000); 3.4.11 NTUA (Radojčić et al. 2001) 3.4.12 Displacement, Semi-displacement, andPlaning Hull Forms (Bertram andMesbahi 2004)3.4.13 USCG amp TUNS-Hard Chine, Wide Transom, Planing (Radojčić et al. 2014a); 3.4.14 Series 50 (Radojčić et al. 2014b); 3.4.15 Series 62 (Radojčić et al. 2017a, b); 3.4.16 DSDS (Keuning andHillege 2017a, b); 3.4.17 NSS (De Luca andPensa 2017); 3.4.18 NSS (Radojčić andKalajdžić 2018); 3.5 Future Work-Stepped Hulls; 3.6 Mathematical Model Use; 3.7 Recommended Mathematical Models forResistance andDynamic Trim Prediction; 3.7.1 Some Typical Examples; References
Series Title: SpringerBriefs in applied sciences and technology.
Responsibility: Dejan Radojčić.

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This SpringerBrief focuses on modeling and power evaluation of high-speed craft.  Read more...

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