Typmarvn_Vertical and Herizontal Axis Wind Turbine
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Typmarvn_Vertical and Herizontal Axis Wind Turbine



Typmarvn Vertical and Herizontal Axis Wind Turbine

Typmarvn Vertical and Herizontal Axis Wind Turbine
Wind Solar Hybrid Street Light System



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Typmarvn_Vertical and Herizontal Axis Wind Turbine Typmarvn_Vertical and Herizontal Axis Wind Turbine Presentation Transcript

  • Maglev Vertical Axis Wind Turbine(VAWT) AND Horizontal Axis Wind Turbine(HAWT) (Spokesman):TYPMAR WIND SOLAR ENERGY VIETNAM DR. JAMES GIA CO CEO
  • INTRODUCTION:  BACKGROUND Within today global concern on Green Energy of electrical power generation technology, wind energy is one type of the considerable option on renewable energy (RE) in which might works foe solution to be deployed incorporated with solar (photovoltaic) energy source. Specifically for Vietnam, where daylight and wind are fulfilling intercept compliment each-other during the full days and constantly applied among seasons during the full year, even though they are moderately low in terms of intensity (on pv) as well as speed (on wind).  OBJECTIVE Our effect proposed in this presentation is to configure a “ Hybrid Wind & Solar” Energy conversion in a such match to provide suitable area- based solution on “Green Technology” for TYPMAR Wind Solar Energy Hybrid Street Light System.
  • INTRODUCTION:  THE TECHNOLOGY  TYPMAR Wind Turbine is New Technology in Green Energy on Vertical wind Turbine having World Patent for Power Generating device from Breeze Wind energy conversion and its certified ISO 9001 Certification.  TYPMAR Wind Turbine is China Technology (Government authorized by China Institution of Science & Technology) with a 9 years R&D while today, the products are proven by having the European Certificates (MTI) since 2010.  TYPMAR Wind Turbine technology used magnet as a Motor to generate conversion from wind energy into electrical power with the strength point in Breeze Wind, TYPMAR Maglev Wind Turbine generate power at considerably low Wind Speed (starts from 1m/s).  With less weight, TYPMAR Wind Turbine can be easily placed in many purpose like Lamp-post, Telecommunication Tower, Ship Pole, etc. With TYPMAR Wind Turbine – we make World Greener than before…
  • HAWT and VAWT was named according to their different positions between the rotor axis and relative ground Horizontal Axis Wind Turbine (HAWT ) High Efficiency and Mature in Theory Maglev Variable Axis Wind Turbine (VAWT) Simple Design and Easy Maintenance Brief Introduction On Wind Turbine
  • At present, the main form of commercial wind turbine is the HAWT. Why not the VAWT ? Commercialization Of Wind Turbine ?
  •  Rotor Types of VAWT According to their workings, the rotors of VAWT are divided into drag-based type and lift-based type  History Has a long history(Vertical axis windmill in China has a history of over 2000 years) The VAWT began to appear until the 1920s Savonius Drag-based Rotor Invented in 1924 Darrieus Lift-based Rotor invented in 1931 The History Of VAWT
  •  (Time Background) The tip speed ratio of VAWT will NOT be higher than 1 Power coefficient of VAWT is less than HAWT No attention on the research of VAWT Background Of VAWT Tip Speed Ratio λ
  •  Renew the VAWT Only for drag-based rotor( Savonius rotor), tip speed ratio is lower than 1 Tip speed ratio of lift-based rotor( Darrieus rotor) reaches 6 Power coefficient of lift-based rotor is not less than HAWT, above 40% Development Of VAWT Lift-based RotorDrag-based Rotor
  •  Types of Darrieus Lift-based Rotor Y Type, △Type, ◇ Type, H Type, Φ Type Straight blade and bent blade are two the main types, especially for H type and Φ type Types Of Lift-based Vertical Axis Rotor Types of Lift-based Vertical Axis Rotor
  •  Characteristics Straight blade Simple structure Good efficiency at lower wind speed  Disadvantages A huge bending moment is produced by blades at high wind speed Drag force along with support, brings lower efficiency •Limited on Large-scale development H Type Design H Type Rotor
  •  Characteristics Bending blade The shape of rotor likes a giant gyro Excellent performance on Solid Mechanics •Promising on large-scale development  Disadvantages No working at lower wind speed, limited on marketing development Φ Type Design Φ Type Rotor
  •  Recent years, more and more people are working on VAWT, even notable achievements  TYPMAR Maglev VAWT High efficiency due to Φ type design Lower wind starting performance from S type design Maglev Wind Turbine in TYPMAR China Recent Situation Of VAWT
  • VAWT Is A Wise Choice! ? Why does VAWT become more popular? Why is maglev VAWT of TYPMAR a better choice?
  • 叶片类似悬臂梁 Accident in ChinaAccident in UK  Blade Structure Cantilever beam structure on blades Wind load, and centrifugal force and gravity are positive (Influences) Blade root easily broken High requests on the stiffness and strength of materials Limited on large-scale development Structure Analysis Of Blades Horizontal Axis Rotor
  •  Structure of blade The fixed blades are similar with both ends of the bow Tension and gravity are two main forces  Influences Smaller blade stress on point of junction Firm structure,promising for large-scale development Vertical Axis Rotor Bow Blade Structure Analysis Of Blades
  • Wind Turbine Power Coefficient Horizontal Axis Rotor  Theoretical Calculation Design method is Momentum Theory and Blade Element Theory(BEM) Power coefficient is more than 40%  Application Case Easily affected by wind directions that brings “loss of the wind” Lower power coefficient in actual application Easily affected by wind directions 对风向有要求
  • Vertical Axis Rotor  Theoretical Calculation Flow Tube Method and Vortex Method in the past Difficult in dealing flow field detail, no accurate result Now, Computational Fluid Dynamics(CFD) Power coefficient is more than 40%  Application Case Do not affected by winds direction •Higher utilization coefficient in actual application Unsteady Flow Field of VAWT Wind Turbine Power Coefficient
  • Starting Wind Speed  HAWT  Starting wind speed is more than 3m/s  Maglev VAWT in TYPMAR  Darrieus-Savonius hybrid wind turbine  World’s first Maglev Wind Turbine  No mechanical friction and starts up at wind speed of 1m/s Therefore, VAWT’s energy production is optimized Maglev Wind Turbine of TYPMAR China
  • Materials And Accessories  HAWT  Adopted composite materials on large blade, like Glass Fiber Composite Materials  Fire hazard due to fuel tank and gear box inside each unit,also makes noise  Gear box makes noise (USA )(Germany)(Ireland)
  •  VAWT of TYPMAR  Excellent performance due to solid force mechanics •Aluminum alloy wind blade  NO fuel tank and gear box, NO fire hazard  No Noise and simple transmission construction Italy Project Street Lamp in China Materials And Accessories
  • Lightning Protection  HAWT Blade Tip always in highest position )  Lighting touches blade tip firstly .  Replacement on Maintenance cost is very expensive.  TYPMAR MVAWT  Lighting arrestor always in highest position .  Lightning rod will lead lightning underground . Blade Tip HAWT Lightning Arrestor VAWT of TYPMAR
  •  HAWT  Dozens meters of height during the whole installation  Dozens tons of weight, including gear box and fuel tank  The whole weight supported by only one tower  The whole structure is not steady  Assembling and maintenance are inconvenient Accident in China Accident in USA Inner Structure of HAWT Tower Construction
  • Tower Construction  VAWT IN TYPMAR HI-TECH  Generator(Direct Drive) installed at the bottom  No fuel tank and gear box, weight is light  Large-scale VAWT designed into the form of tower •The whole weight shared by four masts  Spinning at opposite direction to avoid resonance  Also fixed with wire cable Fixed with Wire Cable VAWT in Form of Tower Sample of MW VAWT Spin
  • Summary  NO Matter on wind utility efficiency or on the perfect combination between maglev levitation and lightning protection , or on the energy production ability , or on security performance, TYPMAR maglev wind turbine from China, who is greatly superior to HAWT, even that of most its competitors , Which is one of greatest inventions in 21th Century in global wind industry .  Because TYPMAR provides the reliable wind power equipments that promote the process of wind application in the world .
  • APPLICATION  TYPMAR MAGLEV WIND TURBINE are suit to use at the following application:  Marine Industry (Ship) Power supply  Electricity for Housing Residential  Telecommunication  Electricity on Agriculture & Fishery Industry  Electricity Supply for general Development on  Rural (off-grid) areas  Billboard  Street Lighting  Military
  • APPLICATION (continue…..) STREET LIGHT Location: Shenzhen, China Finished: 2013
  • STREET LIGHT APPLICATION (continue…..) Location: Shenzhen, China Finished: 2013
  • WIND SOLAR STREET LIGHT PROPOSAL by TYPMAR Wind Solar Energy Viet Nam Co.,Ltd Address:52 Dong Du str, Ben Nghe Ward, District 1, HCM City, Vietnam Tel :+84 73093888 | Fax :+84 837559666 Web: www.typmar.vn
  • TYPMAR Maglev Wind Generator Biography : 1.Smoothly Without Mechanical Friction. 2. Applied by the EML technology, the generator runs efficiently. 3. The blades are made of light AL Alloy with high strength, and it is hollow and drawn into streamline, rotate smoothly without any noise. 4. It can start working at very low wind speed, anti-typhoon, corrosion proof and with superior resistance to the typhoon and sand. 5. Vertical Axis Design is attractive, the beautiful color appearance can be recognized easily by the flying birds to avoid being hit. 6., Spherical arrestor protects the wind turbine from the thunder and lightning 7. 12V low voltage DC output, no electric shock hazard. 8. Its life time is more than 20 years.
  • PRODUCT SPECIFICATIONS: CFX300 Rated Power 300W Size(Diameter/Height) 1.2M/1.06M Turbine Weight 25KG Blades Material Aluminum Alloy Generator Type 3 Minimum Start Wind Speed 1m/s Minimum Power Generation Wind Speed 1m/s Minimum Charge 2.5m/s Rated Wind Speed 8m/s Cut out Wind Speed 15m/s Survival Wind Speed 65m/s Generator Type AC, 3 phases Controller Output Voltage 12V Controller Output Current <20Amp Controller Breaking System 3-Phase short circuit by NFB brake Ambient Temperature -30~50C
  • POWER GENERATION EFFICIENCY Location: Bach Long Vi Island, Vietnam Average Wind Speed: 13 Kts = 6.5m/s Power curve of CFX300W at 6.5m/s is 275W x 10hours = 2.75KW/day Power of LED street lamp: 60Wh x 10hours = 600W/day
  • SOLAR HYBRID STREET LIGHTING DESIGN: Wind turbines and solar cells is a rational combination of wind and solar street lamps. Which its to ensure smooth, safe operation of wind generators and solar panels. Also with the diversification of the street light pole modeling, wind and solar street lamps designed to pick arm style street lamps. The wind turbine is located in the top of the poles and the solar panel is located on the upper part of the poles.
  • The system is simple in principle. The use of solar cell and photovoltaic effect principle made maglev wind turbine to the battery charging and to provide electricity to street lamps. STREET LIGHT APPLICATION OF THE PRINCIPLE AND STRUCTURE: Wind power and photovoltaic includes four components which are the power generation component, battery energy storage components, power supply components and control components.
  • APPLICATIONS OF THE TYPMAR MAGLEV WIND TURBINES IN THE STREET LIGHT : 1. Provide a reliable and stable power supply to street lights. 2. Lightning rod design, to better protect the street lights and run on a thunderstorm day. 3. Combination of one street light equipment installation to Save Power. 4. The installation is simple and easy to migrate.
  • OUR PRODUCTS ( continue….)
  • 300W WIND AND SOLAR HYBRID POWER SYSTEM APPLICATION ON LED STREET LIGHT (ONLY FOR REFERENCE) No Main Equipment Specification Qty (Pcs) 1 CXF300W Wind Turbine 12V 1 2 300W Wind and Solar Hybrid Controller 12V/24V 1 3 Solar Panel 12Vdc 1 4 Battery 100AH -12V/24V 3/4 5 LED Street Light 60W-24V 1 6 Pole 8M or 10M 1 Note: Battery Bank Only Standby for Four Days usage without Sunlight and Breeze. WIND & SOLAR HYBRID STREET LAMP SYSTEM 60W 24V
  • MAGLEV WIND AND SOLAR STREET LIGHT ENERGY SAVING BENEFIT CONTRIBUTION 3770 street lights each year: Reduction in electricity consumption of 10,100 million degrees; Saving 3638 tons of coal; By the carbon emissions of 0.9 kg / kWh meter Reduce carbon emissions by 9105 tons; Fully achieved the goal of zero carbon emissions. 0 2000 4000 6000 8000 10000 Save energy and reduce carbon benefits Conservation of electricity (Kilowatts) Save Coal (ton) Reduce carbon emissions (ton)
  • ECONOMIC BENEFITS FROM EEG LAW TOTAL TURNOVER FROM RE (RENEWABLE ENERGY) GERMANY IN 2007 In recent years, RE has developed into a significant economic contribution in Germany. Between 2003 and 2007, total turnover from RE sources increased from about 10 billion Euros to approximately 25 billion Euros, corresponding to an increase of 150% from the year 2003. The level of total turnover in 2007 (25 billion Euros) is equivalent to the tax revenues of the federal state a Baden- Wuerttemberg in 2006 (about 24 billion Euros).
  • GHG EMISSION REDUCTION Year Annual Biomass GWh Annual Biogas GWh Annual Mini- Hydro GWh Annual Solar PV GWh Annual SW GWh Annual RE Electricity (GWh) Annual CO2 Avoidance (tonne/yr) Cumulative CO2 Avoidance (tonne) Cum RE (MW) 2011 675 123 300 7.7 123 1,228 846,975 84,6975 217 2015 2,024 613 1,450 61 1,223 5,374 3,707,825 10,816,136 975 2020 4,906 1,472 2,450 194 2,208 11,229 7,747,900 41,803,181 2,065 2025 7,297 2,146 2,450 456 2,330 14,680 10,128,817 88,071,821 2,809 2030 8,217 2,514 2,450 1,019 2,392 16,592 11,448,339 143,444,366 3,484 2035 8,217 2,514 2,450 2,128 2,453 17,762 12,255,721 202,908,742 4,317 2040 8,217 2,514 2,450 4,170 2,514 19,865 13,707,192 268,207,951 5,729 2045 8,217 2,514 2,450 7,765 2,575 23,522 16,229,914 343,765,293 8,034 2050 8,217 2,514 2,450 13,540 2,637 29,358 20,256,975 436,426,797 11,544 Table: Energy and Environmental Target from 2011 to 2050
  • GHG EMISSION REDUCTION (continue…..) The applicable assumptions to the above Table are: 1.No loss of RE plant capacity (old plants are replaced or upgraded) 2. RE electricity generation: I. 1 MW of biogas and biomass (consumes 25,000 tonne/year/MW of wastes) generate 6,132 MWh/year (70% capacity factor); II. 1 MW of mini-hydro generates 5,000 MWh/year (57% capacity factor); III. 1 MW solar PV generates 1,100 MWh/year (13% capacity factor, but is expected to significantly increase in the future); IV. 1 MW of solid wastes (consumes 100 tonne/day/MW) generate 6,132 MWh/year (70% capacity factor). 3. 1 MWh of RE electricity avoids 0.63 tonne of CO.
  • COMPARISON COSTS BETWEEN MAGLEV WIND SOLAR STREET LAMPS AND TRADITIONAL STREET LIGHTS The above table’s can be drawn from the following six basic conclusions: 1. Maglev wind turbine carbon emissions, 100% energy saving; 2. Line with the second Five-Year Development Plan of the country's new energy products. 3. High-tech products, low cost than traditional products, and simple maintenance without mains; 4.Operating costs on ordinary lamps significantly higher than wind and solar lamps, and will be getting higher and higher (electricity, labor, etc.); 5.The security is very high security risk, not like ordinary power lamps; 6.Social analysis; The building and construction of ordinary street light part of the employment and supporting the development of enterprises, but caused a lot of waste of resources, power waste of resources, metal resources, waste, pollution of the environment, thereby affecting air, water pollution, human life and living space.