Download Resistance Manual PDF

TitleResistance Manual
File Size2.7 MB
Total Pages71
Table of Contents
                            License and Copyright
Contents
About this Manual
Chapter 1 Introduction
	Resistance Calculations Fundamentals
	Data Input Options
	Prediction methods
		Methods For Planing Hulls
			Savitsky (Pre-planing)
			Savitsky (Planing)
			Blount and Fox (Planing)
			Lahtiharju
			Wyman
		Methods For Displacement Ships
			Holtrop
			Compton
			Fung
			van Oortmerssen
			Series 60
			KR Barge
		Methods Applicable To Yachts
			Delft Series I, II and III
		Analytical Method
			Slender body method
	Hull Parameter Validation
Chapter 2 Using Maxsurf Resistance
	Getting Started
	Taking Measurements from a Maxsurf design
	Opening a Data File
	Entering Data
		Length / Lwl
		Beam
		Draft
		Displaced Volume
		Wetted Area
		Prismatic Coefficient
		Water plane Area Coefficient
		Half Angle of entrance
		LCG from midships
		Transom Area
		Maximum Sectional Area
		Bulb Transverse Area
		Bulb Height from Keel
		Wetted Area
		Draft at FP
		Deadrise at 50% Lwl
		Frontal Area
		Drag Coefficient
		Air Density
		Appendage Area
		Nominal Appendage Length
		Appendage Factor
		Correlation Allowance
		Physical Properties of Sea Water
	Calculating Resistance
		Selecting the Resistance Prediction Methods
		Wind and Appendage Resistance
		Data Validation
		Specifying Speed Range
		Viewing Results
			Results Table
			Results Graph
	Using the slender Body Method
		Model Validation
		Calculating the Slender Body Resistance
		Slender Body Analysis Geometry
			Slender Body Geometry – Video
			Editing the Slender Body Geometry
			Modelling the Transom
			Multihull Mesh Examples
		Calculating the Form Factor
	Calculating Free Surface Wave Pattern
		Wave Pattern Display
		Saving and Loading Wave Patterns
		Accuracy of Wave Pattern Calculations
	Power prediction in Maxsurf Resistance
Chapter 3 Maxsurf Resistance Reference
	Windows
		View Windows
		Data Window
		Graph Window
		Results Window
	Toolbars
		File Toolbar
		View Toolbar
		Contours Toolbar
		Analysis Toolbar
		Window Toolbar
		Render Toolbar
	Menus
		File Menu
			Open Design
			Close Design
			New Measurement Data
			Open Measurement Data
			Close Measurement Data
			Save Measurement Data
			Save Measurement Data As
			Open Free Surface
			Save Free Surface As
			Export Bitmap Image.
			Page Setup
			Print
			Exit
		Edit Menu
			Undo
			Cut
			Copy
			Paste
		View Menu
			Zoom
			Shrink
			Pan
			Home View
			Set Home View
			Rotate
			Colours and Lines
			Font
			Toolbars
			Status Bar
		Analysis Menu
			Methods
			Speeds
			Efficiency
			Measure Hull
			SB Analysis Geometry
			Solve Resistance Analysis
			Calculate Free Surface
		Display Menu
			Graph Type
			Contours
			SB Mesh
			Wave Grid
			Wave Contours
			Wave Solid Render
			Measurements
			Render
		Data Menu
			Units
			Frame of Reference
		Windows Menu
			Cascade
			Tile Horizontal
			Tile Vertical
			Arrange Icons
			Data
			Results
			Perspective
			Plan
			Profile
			Body Plan
			Graph
		Help Menu
			Maxsurf Resistance Help
			Maxsurf Resistance Automation Reference
			Online Support
			Check for Updates
			About Maxsurf Resistance
Chapter 4 Theoretical Reference
	Glossary
		Half Angle of entrance
		Appendage Area
		Appendage Length, nominal
		Appendage Factor
		Beam
		Bulb Height from Keel
		Bulb Transverse Area
		Correlation Allowance
		Deadrise at 50% Lwl
		Density, Air
		Density, Sea
		Displaced Volume
		Draft
		Draft at FP
		Drag Coefficient
		Efficiency
		Frontal Area
		Froude Number
		Kinematic Viscosity
		LCG from midships
		Length / Lwl
		Maximum Sectional Area
		Prismatic Coefficient
		Transom Area
		Transom Beam
		Transom Draft
		Water plane Area Coefficient
		Wetted Area
		Volume Froude Number
	Bibliography
Appendix A Demonstration Version
Appendix B Applicability
	Hullshape
	Speed
	Dimensions
Appendix C Slender Body Method
	Wigley hull
	NPL round-bilge
Index
                        

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