Wind turbine design, manufacturing and wind farm design and construction of: Sushao Yu, Su has just edited Publication date: 2013 Introduction "wind turbine design, manufacturing and wind farm design and construction," gives the traditional, hybrid and straight The structure of the driven wind turbine, the material, manufacture of each component, and the check of its strength and stiffness also give the mechanism of wind power generation. Summarize the structural characteristics of wind turbines at home and abroad, and propose and practice the use of "value engineering" to combine the independent speed and direction functions of wind turbines, and use the steering system to achieve speed and direction adjustment. At the same time, it also creatively puts forward the ways to improve the efficiency of wind turbines and determine the impact of rated wind speed on the economic benefits of wind turbines. "Design, Manufacturing of Wind Turbines and Design and Construction of Wind Farms" explains the significance of developing wind power and the development trend of wind power and wind turbines. Based on a comparison of various types of wind turbines, hybrid and direct-drive wind turbines are proposed as the most promising structural form in the future. "Design, Manufacturing of Wind Turbines and Design and Construction of Wind Farms" also provides wind speed calculation and wind speed measurement, wind farm site selection, feasibility study, and wind farm design. Based on the summary of the reasons for the collapse of the wind turbine, a new idea for the design, calculation and construction of the tower foundation of the wind turbine is proposed. "Wind Turbine Design, Manufacturing and Wind Farm Design and Construction" is the author's book "Wind Turbine Design and Operation and Maintenance" published in 2003 about ten years after the wind turbine design, manufacturing, and wind farm design and construction A new book that can provide a reference for engineering and technical personnel engaged in the design, research and development, and manufacturing of wind turbines, as well as the operation, management, and maintenance of wind turbines in wind farms. And other professional reference books.
Preface Main Symbols Chapter 1 Introduction Chapter 1 History and Development of Wind Energy Utilization Section 2 Significance of Wind Power Generation and the Future of Wind Power Section 3 Existing Problems in Wind Power and Wind Turbines Section 2 Wind Power Generators And its applications Section 1 Modern wind turbines Section 2 Application of wind turbines Chapter 3 Mechanisms of wind turbines Section 1 Theories of wind turbines Section 2 Blade form and concept of blades Section 3 Blade airfoil Section 4 Blade aerodynamics Section 5 Wind turbine efficiency and efficiency-related parameters Chapter 4 Classification and structure of wind turbines Section 1 Classification of wind turbines Section 2 Structures of micro and small wind turbines Section 3 Sections of domestic and foreign large and horizontal horizontal-axis traditional wind turbine structures Section 4 horizontal-axis direct drive and hybrid wind turbine structures Section 5 vertical-axis wind turbine structures Section 6 lightning protection and computer control of wind turbines , Tower foundation and grid connection Chapter 5 Wind turbine design procedure and main parameters Section 1 Wind turbine design procedure Section 2 Parameters used in the design of wind turbines Chapter 6 General design and structural layout of wind turbines Section 1 Design and calculation of comprehensive performance and technical parameters of wind turbines Section 2 Off-grid micro and small wind turbines General Structural Layout Section 3 General Structural Layout of Traditional and Hybrid Grid-connected Wind Turbines Section 4 General Structural Layout of Direct Drive Horizontal Axis Grid-connected Wind Turbines Section 5 Directional Design with "Value Engineering" The system meets the two functions of direction adjustment and speed adjustment. Chapter 7. Design, manufacturing, force analysis and strength calculation of wind turbine blades. Section 1. Concepts or terminology of wind turbine blades. Section 2. General requirements for wind turbine blade design. Section III Calculation of wind turbine blade parameters and dimensions, determination of section IV vertical axis Darius wind turbine blade parameters, section 5 horizontal axis wind turbine blade structure, materials and manufacturing, section 6 wind turbine blade forces Section VII Blade Strength and Stiffness of Wind Turbine Unit Section VIII Blade Size Design Example Chapter VIII Wind Power Design, manufacturing and selection of wind turbine shafts, speed increasers and couplings of generator sets. Force analysis of the first section off-grid direct-drive wind turbine shaft and determination of the dangerous shaft diameter. Second section off-grid direct-drive wind Material, manufacturing and strength check of wind turbine shaft of generator set Section 3 Structure, material and manufacturing of wind turbine shaft of grid-connected direct-drive wind turbine Section IV Strength check of wind turbine shaft of grid-connected direct-drive wind turbine Section Material, Manufacturing and Force Analysis of Wind Turbine Shafts of Traditional Grid-connected Wind Turbines Section 6 Determination and Strength Check of the Most Dangerous Shaft Diameter of Wind Turbine Shafts of Traditional Grid-connected Wind Turbines Selection of Speed Increasers and Bearings Section 8 Selection of Couplings for Traditional and Hybrid Grid-connected Wind Turbines Chapter 9 Design of Wind Turbine Hub and Nacelle Base Beam Section 1 Form and Material of Wind Turbine Hub Force analysis and strength check of the second section hub and the third section Design of the nacelle base beam Chapter ten Design of the generator for wind turbines Section one Induction asynchronous generator and grid connection Section two Structure and grid connection of permanent magnet generators for wind turbines. Section 3 Calculation of given data and parameters for design of permanent magnet generators for wind turbines. Section 4: Determination of main dimensions of permanent magnet generators. Gap magnetic density, line load, utilization factor and heating coefficient Section 6 Power of permanent magnet generator Section 7 Efficiency of permanent magnet generator Section 8 Balance of rotor of permanent magnet generator Section 9 Design example of permanent magnet generator Chapter 11 Design of Wind Turbine Speed Regulation, Direction and Brake Mechanisms Section 1 Design of Off-Grid Wind Turbine Direction Regulation, Speed and Regulation Mechanisms Section 2 Traditional Horizontal Shaft Blade Tip Turbulence Speed Regulation, Direction Regulation and Control Speed, steering and braking of the third pitch variable-horizontal horizontal-axis wind turbine Set the steering torque, braking torque and main braking torque of the fourth quarter Wind turbine Bending Strength Chapter 12. Design and Manufacture of Wind Turbine Towers and Tower Foundations Structural Analysis and Force Analysis of the First Section of Towers Checking the Strength and Stiffness of the Second Section of Towers Third Section of Tower Towers Preliminary Evaluation of Wall Thickness and Manufacturing of Tower Section tower vibration, lightning protection and anti-corrosion treatment Section 5 Importance of tower foundation of wind turbine section Section 6 overturning moment of tower foundation and balance Section 7 tower connection to foundation and estimation of foundation reinforcement Chapter 13 Ways to Improve the Economic Benefits of Wind Turbines Section 1 The Impact of Wind Turbines' Power and Efficiency on the Economic Benefits of Wind Turbines Section 2 Increasing the Utilization of Wind Turbines is an Effective Way to Improve Their Economic Benefits Third The impact of the safety, reliability and service life of wind turbines on their economic benefits. Chapter 14 Future development trends of horizontal axis grid-connected wind turbines. Section 1 The structure of modern horizontal axis grid-connected wind turbines at home and abroad. And characteristics Section 2 Comparison of traditional, hybrid and direct-drive horizontal axis grid-connected wind turbines Section 3 Future development trends of wind turbines Chapter 15 China's wind energy resources and wind energy assessment Section 1 China's land-based and The general distribution of marine-type wind energy resource areas. Section 2. Influence of geographical and natural conditions on wind energy utilization. Section 3. Annual average wind speed, wind. Rate Density and Division of Wind Energy Utilization Sections Section 4 Wind Energy Evaluation and Wind Speed Estimation Section 5 Wind Measurements and Wind Energy Evaluations of Wind Fields Section 6 Wind Energy Resource Evaluation Chapter 16 Wind Farm Design and Installation and Installation of Wind Turbines Design procedure for commissioning the first section of the wind farm Section 2 Investigation of wind energy resources of the wind farm and site selection of the wind farm Section 3 "Project Proposal" of the wind farm construction project
Section 4 Feasibility Study on Construction of Wind Farm Project Section 5 Wind Farm Design Section 6 Installation and Commissioning of Wind Turbine Appendix Appendix A Blade Airfoil Catalogue Appendix B China and IEC (International Electrotechnical Commission) Standard Catalogue Appendix C Neodymium Appendix D. Performance of iron-boron permanent magnets Appendix D. Common data sheet for enamelled round copper wire and thick insulated polyester enamelled rectangular copper wire Appendix E. Magnetic induction strength and maximum iron loss of hot-rolled silicon steel sheet for electrical purposes under strong magnetic fields
Appendix F Cold-rolled oriented and non-oriented electrical steel strips (sheets)
Appendix G Table of magnetization curves and iron loss curves of some magnetically permeable materials Appendix H Domestic steel plates that can be used to manufacture wind turbine towers Appendix I Ductile iron and malleable iron that can be used as wind turbine hubs Appendix J JB / T10300-2001 Appendix D Simplified Design Load References