Horizons in world physics.: Volume 271 /
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Science,
2011.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource (x, 336 pages) |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781611222265 1611222265 |
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| 505 | 0 | |a HORIZONS IN WORLD PHYSICS. VOLUME 271; CONTENTS ; PREFACE ; NUMERICAL MODELLING OF WIND WAV E S: PROBLEMS, SOLUTIONS, VERIFICATIONS, AND APPLICATIONS ; ABSTRACT ; 1. INTRODUCTION ; 2. FUNDAMENTAL EQUATIONS AND CONCEPTIONS ; 3. WAVE EVOLUTION MECHANISM DUE TO NONLINEARITY ; 3.1. General Grounds ; 3.2. The Most Effective Approximation for Nl Term ; 4. WIND WAVE ENERGY PUMPING MECHANISM ; 4.1. General Grounds ; 4.2. Effective Approximations for in Term; 4.3. Choice of the Wind Representation ; 4.4. The Dynamic Boundary Block Construction ; 5. WIND WAVE DISSIPATION MECHANISM. | |
| 505 | 8 | |a 5.1. Overview of the Problem 5.2. Basic Statements ; 5.3. Reynolds Stress ; 5.4. Phenomenological Closure of Reynolds Stress ; 5.5. General Kind of the Wave Dissipation Term in a Spectral Form ; 5.6. Parameterization of the Dissipation Term and Its Properties; 5.6.1. Specification of function Dis(S, k, W) ; 5.6.2. Physical meaning of the dissipation term parameters and correspondence to the empirics ; 6. VERIFICATION OF NEW SOURCE FUNCTION ; 6.1. Main Regulations for Testing and Verification of Models ; 6.2. Specification of Numerical Simulations and Error Estimations. | |
| 505 | 8 | |a 6.3. Results of Testing New Source Function 6.3.1. Straight fetch test ; 6.3.2. Swell decay test ; 6.3. Results of Comparative Validation of the Models WW and NEW ; 6.3.1. One-month simulations in the North Atlantic ; 6.3.2. Long-period simulations in the Western part of the North Atlantic ; 6.3.4. Point of the speed of calculation ; 6.3.5. Conclusion for verification ; 7. FUTURE APPLICATIONS ; 7.1. A Role of Wind Waves in Dynamics of Air-Sea Interface ; 7.1.1. Introductory words ; 7.1.2. The Role of wind wave evolution mechanisms. | |
| 505 | 8 | |a 7.1.3. Energy and momentum balance at the air-sea interface 7.2. Examples for Estimation of Wave Impact on Parameters of the ABL and WUL ; 7.2.1. Wave state impact on the value of friction coefficient in the ABL; 7.2.2. Estimation of acoustic noise intensity dependence on the wind speed ; 7.2.3. Intermediate conclusion ; 7.3. Using wind wave Models for Studying Long-Term Mechanical Energy Exchange in the System: Wind-Wave-Upper Ocean ; 7.3.1. The Main tasks ; 7.3.2. Method of study ; REFERENCES ; AN OVERVIEW OF PLASMA CONFINEMENT IN TOROIDAL SYSTEMS ; ABSTRACT ; I. INTRODUCTION. | |
| 505 | 8 | |a I.1. Energy Crisis I.2. Nuclear Fission ; I.3. Nuclear Fusion ; I.4. Other Fusion Concepts ; II. PLASMA EQUILIBRIUM ; II. 1. Ideal Magnetohydrodynamics (MHD) ; II. 2. Curvilinear System of Coordinates ; II. 2.1. Transformation of Coordinates ; II. 2.2. Metric Tensor ; II. 2.3. Volume and Surface Elements ; II. 2.4. Dot and Cross Product ; II. 2.5. Gradient, Divergence and Curl Operator ; II. 3. Flux Coordinates ; II. 3.1. Primitive Toroidal Coordinates ; II. 3.2. Flux Coordinates ; II. 3.3. Boozer Coordinates ; II. 3.4. Hamada Coordinates ; II. 4. Extensions to Axisymmetric Equilibrium. | |
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| contents | HORIZONS IN WORLD PHYSICS. VOLUME 271; CONTENTS ; PREFACE ; NUMERICAL MODELLING OF WIND WAV E S: PROBLEMS, SOLUTIONS, VERIFICATIONS, AND APPLICATIONS ; ABSTRACT ; 1. INTRODUCTION ; 2. FUNDAMENTAL EQUATIONS AND CONCEPTIONS ; 3. WAVE EVOLUTION MECHANISM DUE TO NONLINEARITY ; 3.1. General Grounds ; 3.2. The Most Effective Approximation for Nl Term ; 4. WIND WAVE ENERGY PUMPING MECHANISM ; 4.1. General Grounds ; 4.2. Effective Approximations for in Term; 4.3. Choice of the Wind Representation ; 4.4. The Dynamic Boundary Block Construction ; 5. WIND WAVE DISSIPATION MECHANISM. 5.1. Overview of the Problem 5.2. Basic Statements ; 5.3. Reynolds Stress ; 5.4. Phenomenological Closure of Reynolds Stress ; 5.5. General Kind of the Wave Dissipation Term in a Spectral Form ; 5.6. Parameterization of the Dissipation Term and Its Properties; 5.6.1. Specification of function Dis(S, k, W) ; 5.6.2. Physical meaning of the dissipation term parameters and correspondence to the empirics ; 6. VERIFICATION OF NEW SOURCE FUNCTION ; 6.1. Main Regulations for Testing and Verification of Models ; 6.2. Specification of Numerical Simulations and Error Estimations. 6.3. Results of Testing New Source Function 6.3.1. Straight fetch test ; 6.3.2. Swell decay test ; 6.3. Results of Comparative Validation of the Models WW and NEW ; 6.3.1. One-month simulations in the North Atlantic ; 6.3.2. Long-period simulations in the Western part of the North Atlantic ; 6.3.4. Point of the speed of calculation ; 6.3.5. Conclusion for verification ; 7. FUTURE APPLICATIONS ; 7.1. A Role of Wind Waves in Dynamics of Air-Sea Interface ; 7.1.1. Introductory words ; 7.1.2. The Role of wind wave evolution mechanisms. 7.1.3. Energy and momentum balance at the air-sea interface 7.2. Examples for Estimation of Wave Impact on Parameters of the ABL and WUL ; 7.2.1. Wave state impact on the value of friction coefficient in the ABL; 7.2.2. Estimation of acoustic noise intensity dependence on the wind speed ; 7.2.3. Intermediate conclusion ; 7.3. Using wind wave Models for Studying Long-Term Mechanical Energy Exchange in the System: Wind-Wave-Upper Ocean ; 7.3.1. The Main tasks ; 7.3.2. Method of study ; REFERENCES ; AN OVERVIEW OF PLASMA CONFINEMENT IN TOROIDAL SYSTEMS ; ABSTRACT ; I. INTRODUCTION. I.1. Energy Crisis I.2. Nuclear Fission ; I.3. Nuclear Fusion ; I.4. Other Fusion Concepts ; II. PLASMA EQUILIBRIUM ; II. 1. Ideal Magnetohydrodynamics (MHD) ; II. 2. Curvilinear System of Coordinates ; II. 2.1. Transformation of Coordinates ; II. 2.2. Metric Tensor ; II. 2.3. Volume and Surface Elements ; II. 2.4. Dot and Cross Product ; II. 2.5. Gradient, Divergence and Curl Operator ; II. 3. Flux Coordinates ; II. 3.1. Primitive Toroidal Coordinates ; II. 3.2. Flux Coordinates ; II. 3.3. Boozer Coordinates ; II. 3.4. Hamada Coordinates ; II. 4. Extensions to Axisymmetric Equilibrium. |
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| publisher | Nova Science, |
| record_format | marc |
| spelling | Horizons in world physics. Volume 271 / Albert Reimer, editor. New York : Nova Science, 2011. 1 online resource (x, 336 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. HORIZONS IN WORLD PHYSICS. VOLUME 271; CONTENTS ; PREFACE ; NUMERICAL MODELLING OF WIND WAV E S: PROBLEMS, SOLUTIONS, VERIFICATIONS, AND APPLICATIONS ; ABSTRACT ; 1. INTRODUCTION ; 2. FUNDAMENTAL EQUATIONS AND CONCEPTIONS ; 3. WAVE EVOLUTION MECHANISM DUE TO NONLINEARITY ; 3.1. General Grounds ; 3.2. The Most Effective Approximation for Nl Term ; 4. WIND WAVE ENERGY PUMPING MECHANISM ; 4.1. General Grounds ; 4.2. Effective Approximations for in Term; 4.3. Choice of the Wind Representation ; 4.4. The Dynamic Boundary Block Construction ; 5. WIND WAVE DISSIPATION MECHANISM. 5.1. Overview of the Problem 5.2. Basic Statements ; 5.3. Reynolds Stress ; 5.4. Phenomenological Closure of Reynolds Stress ; 5.5. General Kind of the Wave Dissipation Term in a Spectral Form ; 5.6. Parameterization of the Dissipation Term and Its Properties; 5.6.1. Specification of function Dis(S, k, W) ; 5.6.2. Physical meaning of the dissipation term parameters and correspondence to the empirics ; 6. VERIFICATION OF NEW SOURCE FUNCTION ; 6.1. Main Regulations for Testing and Verification of Models ; 6.2. Specification of Numerical Simulations and Error Estimations. 6.3. Results of Testing New Source Function 6.3.1. Straight fetch test ; 6.3.2. Swell decay test ; 6.3. Results of Comparative Validation of the Models WW and NEW ; 6.3.1. One-month simulations in the North Atlantic ; 6.3.2. Long-period simulations in the Western part of the North Atlantic ; 6.3.4. Point of the speed of calculation ; 6.3.5. Conclusion for verification ; 7. FUTURE APPLICATIONS ; 7.1. A Role of Wind Waves in Dynamics of Air-Sea Interface ; 7.1.1. Introductory words ; 7.1.2. The Role of wind wave evolution mechanisms. 7.1.3. Energy and momentum balance at the air-sea interface 7.2. Examples for Estimation of Wave Impact on Parameters of the ABL and WUL ; 7.2.1. Wave state impact on the value of friction coefficient in the ABL; 7.2.2. Estimation of acoustic noise intensity dependence on the wind speed ; 7.2.3. Intermediate conclusion ; 7.3. Using wind wave Models for Studying Long-Term Mechanical Energy Exchange in the System: Wind-Wave-Upper Ocean ; 7.3.1. The Main tasks ; 7.3.2. Method of study ; REFERENCES ; AN OVERVIEW OF PLASMA CONFINEMENT IN TOROIDAL SYSTEMS ; ABSTRACT ; I. INTRODUCTION. I.1. Energy Crisis I.2. Nuclear Fission ; I.3. Nuclear Fusion ; I.4. Other Fusion Concepts ; II. PLASMA EQUILIBRIUM ; II. 1. Ideal Magnetohydrodynamics (MHD) ; II. 2. Curvilinear System of Coordinates ; II. 2.1. Transformation of Coordinates ; II. 2.2. Metric Tensor ; II. 2.3. Volume and Surface Elements ; II. 2.4. Dot and Cross Product ; II. 2.5. Gradient, Divergence and Curl Operator ; II. 3. Flux Coordinates ; II. 3.1. Primitive Toroidal Coordinates ; II. 3.2. Flux Coordinates ; II. 3.3. Boozer Coordinates ; II. 3.4. Hamada Coordinates ; II. 4. Extensions to Axisymmetric Equilibrium. Physics. http://id.loc.gov/authorities/subjects/sh85101653 Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Wind waves Mathematical models. Physics https://id.nlm.nih.gov/mesh/D010825 Physique. Physique mathématique. Vagues de vent Modèles mathématiques. physics. aat SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Mathematical physics fast Physics fast Wind waves Mathematical models fast Reimer, Albert. http://id.loc.gov/authorities/names/no2003096831 has work: Horizons in world physics Volume 271 (Text) https://id.oclc.org/worldcat/entity/E39PCFB8hvWJj7FRXWwcD34Rmm https://id.oclc.org/worldcat/ontology/hasWork Print version: Horizons in world physics. New York : Nova Science, 2011 1617618845 (OCoLC)664656936 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=374583 Volltext |
| spellingShingle | Horizons in world physics. HORIZONS IN WORLD PHYSICS. VOLUME 271; CONTENTS ; PREFACE ; NUMERICAL MODELLING OF WIND WAV E S: PROBLEMS, SOLUTIONS, VERIFICATIONS, AND APPLICATIONS ; ABSTRACT ; 1. INTRODUCTION ; 2. FUNDAMENTAL EQUATIONS AND CONCEPTIONS ; 3. WAVE EVOLUTION MECHANISM DUE TO NONLINEARITY ; 3.1. General Grounds ; 3.2. The Most Effective Approximation for Nl Term ; 4. WIND WAVE ENERGY PUMPING MECHANISM ; 4.1. General Grounds ; 4.2. Effective Approximations for in Term; 4.3. Choice of the Wind Representation ; 4.4. The Dynamic Boundary Block Construction ; 5. WIND WAVE DISSIPATION MECHANISM. 5.1. Overview of the Problem 5.2. Basic Statements ; 5.3. Reynolds Stress ; 5.4. Phenomenological Closure of Reynolds Stress ; 5.5. General Kind of the Wave Dissipation Term in a Spectral Form ; 5.6. Parameterization of the Dissipation Term and Its Properties; 5.6.1. Specification of function Dis(S, k, W) ; 5.6.2. Physical meaning of the dissipation term parameters and correspondence to the empirics ; 6. VERIFICATION OF NEW SOURCE FUNCTION ; 6.1. Main Regulations for Testing and Verification of Models ; 6.2. Specification of Numerical Simulations and Error Estimations. 6.3. Results of Testing New Source Function 6.3.1. Straight fetch test ; 6.3.2. Swell decay test ; 6.3. Results of Comparative Validation of the Models WW and NEW ; 6.3.1. One-month simulations in the North Atlantic ; 6.3.2. Long-period simulations in the Western part of the North Atlantic ; 6.3.4. Point of the speed of calculation ; 6.3.5. Conclusion for verification ; 7. FUTURE APPLICATIONS ; 7.1. A Role of Wind Waves in Dynamics of Air-Sea Interface ; 7.1.1. Introductory words ; 7.1.2. The Role of wind wave evolution mechanisms. 7.1.3. Energy and momentum balance at the air-sea interface 7.2. Examples for Estimation of Wave Impact on Parameters of the ABL and WUL ; 7.2.1. Wave state impact on the value of friction coefficient in the ABL; 7.2.2. Estimation of acoustic noise intensity dependence on the wind speed ; 7.2.3. Intermediate conclusion ; 7.3. Using wind wave Models for Studying Long-Term Mechanical Energy Exchange in the System: Wind-Wave-Upper Ocean ; 7.3.1. The Main tasks ; 7.3.2. Method of study ; REFERENCES ; AN OVERVIEW OF PLASMA CONFINEMENT IN TOROIDAL SYSTEMS ; ABSTRACT ; I. INTRODUCTION. I.1. Energy Crisis I.2. Nuclear Fission ; I.3. Nuclear Fusion ; I.4. Other Fusion Concepts ; II. PLASMA EQUILIBRIUM ; II. 1. Ideal Magnetohydrodynamics (MHD) ; II. 2. Curvilinear System of Coordinates ; II. 2.1. Transformation of Coordinates ; II. 2.2. Metric Tensor ; II. 2.3. Volume and Surface Elements ; II. 2.4. Dot and Cross Product ; II. 2.5. Gradient, Divergence and Curl Operator ; II. 3. Flux Coordinates ; II. 3.1. Primitive Toroidal Coordinates ; II. 3.2. Flux Coordinates ; II. 3.3. Boozer Coordinates ; II. 3.4. Hamada Coordinates ; II. 4. Extensions to Axisymmetric Equilibrium. Physics. http://id.loc.gov/authorities/subjects/sh85101653 Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Wind waves Mathematical models. Physics https://id.nlm.nih.gov/mesh/D010825 Physique. Physique mathématique. Vagues de vent Modèles mathématiques. physics. aat SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Mathematical physics fast Physics fast Wind waves Mathematical models fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85101653 http://id.loc.gov/authorities/subjects/sh85082129 https://id.nlm.nih.gov/mesh/D010825 |
| title | Horizons in world physics. |
| title_auth | Horizons in world physics. |
| title_exact_search | Horizons in world physics. |
| title_full | Horizons in world physics. Volume 271 / Albert Reimer, editor. |
| title_fullStr | Horizons in world physics. Volume 271 / Albert Reimer, editor. |
| title_full_unstemmed | Horizons in world physics. Volume 271 / Albert Reimer, editor. |
| title_short | Horizons in world physics. |
| title_sort | horizons in world physics |
| topic | Physics. http://id.loc.gov/authorities/subjects/sh85101653 Mathematical physics. http://id.loc.gov/authorities/subjects/sh85082129 Wind waves Mathematical models. Physics https://id.nlm.nih.gov/mesh/D010825 Physique. Physique mathématique. Vagues de vent Modèles mathématiques. physics. aat SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Mathematical physics fast Physics fast Wind waves Mathematical models fast |
| topic_facet | Physics. Mathematical physics. Wind waves Mathematical models. Physics Physique. Physique mathématique. Vagues de vent Modèles mathématiques. physics. SCIENCE Energy. SCIENCE Mechanics General. SCIENCE Physics General. Mathematical physics Wind waves Mathematical models |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=374583 |
| work_keys_str_mv | AT reimeralbert horizonsinworldphysicsvolume271 |