000			04094nam a2200229#a 4500
001			vtls000000292
008			230822s1982 xx 000 0 eng d
040			_aJPS
041			_aeng
080			_a627
090	0	0	_aHYDR 627 DEP
110			_aDEPARTMENT OF THE NAVY, _eissuing body
245		0	_aCOASTAL PROTECTION: DESIGN MANUAL 26.2,/ _cDEPARTMENT OF THE NAVY
260			_aVirginia: _bDept. of the Navy, _c1982
300			_a314 pages : _billustrations
505			_a1. Introduction 1.1 Scope 1.2 Cancellations 1.3 Related criteria 1.4 General 1.4.1 Approaches 1.4.2 Wave classifications 1.5. Wave theory 1.6. Wave parameters 1.6.1 Definitions 1.6.2 Relative depth 1.6.3 Wavelength 1.7. Wave transformations 1.7.1 Wave shoaling 1.7.2 Wave refraction 1.7.3 Wave diffraction 1.7.4 Wave decay 1.7.5 Wave breaking 1.8. Metric equivalence chart 2. Design waves 2.1 General 2.2 Wave distribution 2.2.1 Significant wave height 2.2.2 Variations in period or direction 2.3 Wave hind-casting 2.3.1 Hind-cast parameters 2.3.2 Hind-casting procedure 2.3.3 Other considerations 2.4 Source for wave observation data 2.5 Extreme waves 2.6 Selection of design waves 2.6.1 Selection 2.6.2 Large projects 2.6.3 Wave-height variability 2.7 Metric equivalence chart 3. Basic planning 3.1 General 3.2 Environmental considerations 3.2.1 Discussion 3.2.2 Guidelines and standards 3.3 Functional design 3.4 Wave run-up 3.4.1 Definition 3.4.2 Calculation of run-up 3.5 Wave transmission 3.5.1 Design parameters 3.6 Wave reflection 3.6.1 Discussion 3.6.2 Calculation of reflection 3.7 Metric equivalence chart 4. Design of rubble-mound structures 4.1 General 4.2 Design 4.2.1 Armor units 4.2.2 Design considerations 4.3 Crest 4.3.1 Crest height 4.3.2 Crest width 4.4 Layer thickness 4.5 Number of armour units 4.6 Primary and secondary cover layers 4.7 Under-layers 4.9 Sacrificial toes 4.10 Core 4.11 Revetments 4.12 Metric equivalence chart 5. Wall design 5.1 Wave-induced forces on walls 5.1.1 General 5.1.2 Non-breaking waves 5.1.3 Breaking waves 5.1.4 Broken waves _a5.1.5 Effect of angle of wave approach 5.1.6 Non-vertical walls 5.2 Uplift forces 5.2.1 General 5.2.2 Forces on Wales 6. Floating breakwaters 6.1 Description 6.2 Application 6.3 Design parameters 6.3.1 Wave transmission 6.3.2 Mooring forces 6.4 Metric equivalence chart 7. Wave forces on cylindrical piles 7.1 Introduction 7.2 Basic equations 7.2.1 Forces 7.2.2 Moments 7.2.3 Drag and inertial coefficients 7.3 Limiting wave height 7.4 Wave crest elevation 7.5 Case 1 - Maximum force on single pile of small , uniform diameter (preliminary design) 7.5.1 Range of application 7.5.2 Maximum drag force 7.5.3 Maximum moment 7.5.4 Reaction 7.6 Case 2 - Pile of intermediate uniform diameter ( preliminary design ) 7.6.1 Range of application 7.6.2 Maximum force 7.6.3 Maximum moment 7.6.4 Reaction 7.7 Case 3. - Maximum force on Single pile of small , non-uniform diameter ( preliminary design ) 7.7.1 Range of application 7.7.2 Force calculations 7.7.3 Maximum force 7.7.4 Maximum moment 7.7.5 Reaction 7.8. Case 4 - Wave force, at an arbitrary wave-phase angle, on single pile of intermediate , non-uniform diameter ( preliminary design ) 7.8.1 Range of application 7.8.2 Linear forces 7.8.3 Linear moments 7.8.4 Phases 7.8.5 Reaction 7.8.6 Example of application 7.9 Case 5 - Non-linear corrections for maximum wave forces on single pile of intermediate of non-uniform diameter ( final design ) 7.9.1 Definitions 7.9.2 Corrections due to non-linear free surface 7.9.3 Corrections of forces and moments due to non-linear velocity and acceleration fields 7.9.4 Total force and moment 7.9.5 Maximum values and phase 7.10 Case 6 - Forces and moments on a combination of piles 7.11 Case 7 - Bracing 7.11.1 General 7.11.2 Horizontal bracing 7.11.3 Angle bracing 7.12 Case 8 - Forces due to breaking waves 7.13 Metric equivalence chart
546			_aIn English
650	1	0	_aCoastal
942			_cMONO
990			_a1982
999			_a05161 _a627 DEP _aVIRTUAP0 _aVTLSSORT0080*0410*0800*0900*1000*2450*2600*3000*5050*5051*5460*6500*9040*9490*9900*9994 _c255 _d255
003			JPS