ปริญญานิพนธ์ฉบับนี้มีวัตถุประสงค์เพ

This edition of the thesis aims to study the design of wind turbine blade by using the Pan shape (Airfoils) to create a wind turbine to wind turbine performance test for low wind speed, average wind speed less than 5 m/s which have brought education, using all manner of air pancake shape (Airfoils).Follows the Pan-shaped Airfoil NACA 0015, NACA 0012 Gerber Gerber, Gerber, Gerber NACA NACA 0018 0021 and NACA NACA air Pan pan is the Gerber 0025 air for an aircraft developed by the National Advisory Committee for Aeronautics (NACA), the shape of the Pan will be identified as NACA air version. The numbers after the letters, ranging from NACA 4-digit NACA 4212 refers to, for example, Pan no sooner is the maximum Gerber cam 4% of chord distance 20% or 0.2 of chords measured from the front (leading edge) and a thickness of up to 12% of the record. Another example, Pan pan, NACA air means asymmetric air-0021 (no cam Gerber) With the thickness of up to 21% of the record. Wind turbine blades that have introduced the study of 12 x 100 cm size creating all-angle blades blades for the wind direction clash outside propellers. Use of polycarbonate plates with dimensions of 20 x 117 cm creation on all leaves. Vertical wind turbines for wind speed is low, work is the wind turbine or set into the fray with machinery that can change kinetic energy from the movement of the wind, mechanical power, mechanical power and used to power with a generator (Generator), change mechanical energy into electrical energy, the MTA DL.Hotkeys as follows: set the wind supply system, then bring up the anemometer comes average level who want to experiment. Before the wind turbine blades to clash in analysis and testing. Find variable speed Revolotions per minute (rpm), voltage (V) and torque (Torque) from the five trials found that: 1. a wind turbine by using the shape Pan air (Airfoil) that Bernadotte NACA 0012 maximum average wind speed (m/s 5) wind turbine rotor blades clash angle 70° (Degrees) Angle adjustable air direction vs. the stator angle 40° (Degrees) is the best blade clash have come out speed value around Revolotions per minute (rpm) 47.6 voltage V 2.854 torque values. (Torque) N/m 2 2.166. a wind turbine by using the shape Pan air (Airfoil) that Bernadotte NACA 0015, the maximum average wind speed (m/s 5) wind turbine rotor blades clash angle 70° (Degrees) The corner vs. the wind direction adjustment 60° (Degrees), the stator is the best blade clash. It came out around the speed per minute (rpm) 32.3 Revolotions voltage 1.8 V torque values. (Torque) N/m1 1.789.3. a wind turbine by using the shape Pan air (Airfoil) that Bernadotte NACA 0018, maximum average wind speed (m/s 5) the angle of wind rotor blades clash Hung-Kang, 70° (Degrees) Angle adjustable air direction vs. the stator angle 50° (Degrees) is the best blade clash have come out speed value around Revolotions per minute (rpm) 38.9 voltage V 2.238 torque values. (Torque) N/m 4 1.601. a wind turbine by using the shape Pan air (Airfoil) that Bernadotte NACA 0021 maximum average wind speed (m/s 5) wind turbine rotor blades clash angle 70° (Degrees) The corner vs. the wind direction adjustment 60° (Degrees), the stator is the batter leaves the best work come out speed value around 40.3 per minute (rpm) Revolotions voltage V 2.327 torque values. (Torque) N/m 5 1.601. a wind turbine by using the shape Pan air (Airfoil) that Bernadotte NACA 0025 maximum average wind speed (m/s 5) wind turbine rotor blades clash angle 70° (Degrees) Angle adjustable air direction vs. the stator angle 40° (Degrees) is the best blade clash have come out speed value around Revolotions per minute (rpm) 45.2 voltage V 2.541 torque (Torque) 1.885 N/m. From the results of the trial have brought effectively education wind turbine blades is best is a NACA 0012 blade clash at the corner of Burgundy in wind turbine rotor, 70° (Degrees) The corner vs. the adjustable wind direction (Degrees) 40° stator voltage average wind not exceeding 5 m/s is the best blade clash. It came out around the speed per minute (rpm) Revolotions 47.6 voltage V 2.854 torque (Torque) N/m 2.166 compared with wind turbine blade design. Wind turbine blades clash in every corner and every level wind speed average 1-5 m/s wind turbine blade shaped by using shaped Pan (Airfoils), NACA 0012 berries are most effective, suitable to be used as a wind turbines produce electricity.

This project aims to study the design of the wind turbine characteristics. The airfoil shape (Airfoils) to build a wind turbine blade. To test the vertical wind turbine for low wind speeds. The average wind speed of up to 5 m / s that can be studied with a total of five model using characteristics shaped airfoil (Airfoils) follows Airfoil shaped airfoil is NACA's 0012, NACA No. 0015, NACA No. 0018, NACA. No. 0021 and No. 0025 NACA airfoil NACA airfoil for an aircraft developed by the National Advisory Committee for Aeronautics (NACA) NACA airfoil shape of the models to identify with. The latter letter NACA, which range from 4 digits, for example NACA 4212 means airfoil with coordinates chamber up to 4% of the chord distance of 20% or 0.2 of a chord measured from the front man (leading edge) and. thickness up to 12% of the sample chord airfoil NACA 0021 symmetric airfoil means. (No camber) with a thickness of up to 21% chord blade wind turbines that have been studied are building 12 x 100 cm equal angle against the wind rotor blades on the outside. Use Polycarbonate Measures to create a 20 x 117 cm equal the vertical wind turbine for low wind speeds principle is based on air collision with a wind turbine or a mechanical one that can transform kinetic energy from the motion of the wind into mechanical energy. the use of mechanical power transmission, next to the generator (Generator) transforming the mechanical energy into electrical energy. The experimental procedure follows a uniform system of air supply. Then measure the wind speed values ​​are averaged to obtain the desired level trials. Clash leaves before the wind To analyze and test Find the speed Revolotions per minute (rpm) voltage (V) and torque (Torque) The results showed that the 5 Series 1. The wind turbine airfoil shape (Airfoil) NACA-style No. 0012. the highest average wind speeds (5 m / s) wind turbine rotor blades clashed over 70˚ (Degrees) fine against the wind stator 40˚ (Degrees) is the clash over the best work out the speed. 47.6 Revolotions per minute (rpm) voltage 2.854 V torque (torque) 2.166 N / m 2. the wind turbine blade airfoil shape (airfoil) NACA-style No. 0015, the average maximum wind speed (5 m / s. ) the wind turbine rotor blade strike 70˚ (Degrees) fine against the wind stator 60˚ (Degrees) is the best corner collision. Work out the speed of 32.3 Revolotions per minute (rpm) voltage 1.8 V torque (Torque) 1.789 N / m1. 3. Wind turbine blade airfoil shaped by nature (Airfoil) No. 0018 at the NACA. the highest average wind speeds (5 m / s) over the batter Kang Pahang wind rotor blades 70˚ (Degrees) fine against the wind stator 50˚ (Degrees) is the clash over the best work out the speed. around 38.9 Revolotions per minute (rpm) voltage 2.238 V torque (torque) 1.601 N / m 4. wind turbine blade airfoil shaped by nature (airfoil) 0021 at the NACA's highest average wind speeds (5 m /. s) wind turbine rotor blades clashed over 70˚ (Degrees) fine against the wind stator 60˚ (Degrees) is the clash over the best work out the speed of 40.3 Revolotions per minute (rpm) voltage. 2.327 V electric torque (torque) 1.601 N / m 5. the wind turbine blade airfoil shape (airfoil) NACA-style No. 0025, the average maximum wind speed (5 m / s) wind turbine rotor blades clashed over 70˚. (Degrees) fine against the wind stator 40˚ (Degrees) is the clash over the best work out the speed of 45.2 Revolotions per minute (rpm) voltage 2.541 V torque (torque) 1.885 N. / m
of results The study has taken the wind with the best performance was at the 0012 NACA's clash wind turbine rotor blades 70˚ (Degrees) fine against the wind stator 40˚ (Degrees) At an average wind speed of not more than five. m / s at an angle against the best. Work out the speed of 47.6 Revolotions per minute (rpm) voltage 2.854 V torque (Torque) 2.166 N / m compared to all wind turbine blades. Clash all over wind turbine blades And the average wind speed 1-5 m / s wind turbine shaped leaves. The airfoil shape (Airfoils) NACA model number 0012 with the best performance. Perfect to use as a wind turbine.

This thesis aims to study the design of the wind turbine. By using geometry slat (Airfoils) to create a wind turbine. To test the performance of vertical axis wind turbine for wind speed is low. Using the average wind speed not exceeding 5 m / S. An study are all 5. Using the airfoil shape air (Airfoils) as Airfoil pan shape air NACA 0012 number, number, number NACA 0015 NACA 0018 NACA,, The number and the number 0021 NACA 0025 slat NACA a slat for plane developed by National Advisory Committee for Aeronautics. (NACA) shape of the slat NACA are identified as different versions. The numbers behind the letters NACA, which has since the main 4 numbers. For example NACA 4212 means. Slat is coordinate camber is the highest 4% of the chord at a distance of 20% or 0.2 chord measured from ชายหน้า (leading edge) and has a maximum thickness 12% of chords. Another example, pan air NACA 0021 means slat symmetric (no camber) is a maximum thickness 21% ของคอ card. Wind turbine blades was studied with the 12 x 100 cm rate all the leaves มุมปะทะ adjustable wind direction vane outside using polycarbonate sheet Size to create 20 x 117 cm rate every leaf, vertical axis wind turbine for low wind speed has the working principle is based on the collision with the turbine or mechanical sets that one can change the kinetic energy from the motion of the wind into mechanical power and the mechanical energy applied to a transmission unit that is attached to the machine. The generator (Generator) change mechanical energy into electrical energy. The experimental procedures are as follows: walking system series air source Then the average wind speed measuring for level who want to experiment before vs wind turbine เพื่อวิ. Analysis and test the speed, Revolotions Per minute (RPM) voltage (V) and torque (Torque) from the experimental results of both 5, found that 1. Wind turbine blades using shape features pan air. (Airfoil) NACA number 0012 maximum average wind speed (5 m / s) มุมปะทะ wind turbine rotor 70 ˚ (Degrees) มุมปะทะ adjust direction wind stator. 40 ˚ (Degrees) is the best มุมปะทะ leaves work out the speed 47.6 Revolotions per minute (RPM) voltage 2.854 V. Torque (Torque) 2.166 N / M 2. Wind turbine blades using geometry slat (Airfoil) NACA number 0015.