Projeto de Rotor de Turbina Savonius Produzido por Impressora 3D

Prévia do material em texto

-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
 
 
 
barisbuldum@mersin.edu.tr 
 
Mersin University, Engineering Faculty, Department of Mechanical Engineering, 33343 Ciftlikkoy, 
Mersin / TURKEY 
 
 
 
 z-
 
 
Anahtar kelimeler: 
 
 
SAVONIUS TURBINE ROTOR DESIGN PRODUCED BY 3D PRINTER 
 
ABSTRACT 
Rapid prototyping is a manufacturing technology that enables us to obtain a preliminary model from compu-
ter aided design (CAD) drawings. Through the rapid prototyping devices, it is possible to obtain the prelimi-
nary model of any product drawn in the computer in a very short time. In this study, Savonius turbine wing 
design which can be produced by 3D printer which is one of the rapid prototyping methods which is beco-
ming widespread nowadays is done. Savonius wind turbines are vertical axis wind turbines that provide 
electricity generation by means of wind energy. The purpose of this work is to replace the damaged wing of a 
new wing, deformed or damaged by rapid 3D laser printer technology when the Savonius turbine blades are 
damaged or undergoing deformation. In this design process, the choice of suitable material, wing design and 
3D printer method is examined. 
Keywords: Savonius turbine, 3D printer, Turbine rotor design 
 
1. 
a-
 
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p-
e-
sine neden olm
 
ulur bir modele 
 
 
 
-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
a-
p-
u-
 
 
2. 
2.1. Stereolithography (SLA) 
n-
 UV / 
 
 
 
2.2. Selective Layer Sintering (SLS) 
 
r-
r-
mektedir. Bu i -
e-
 
-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
 
 
2.3. 
 Tipik bir FDM sisteminde ekst-
 
tabakaya 
u-
 
 
 Plastik 
2.4. 
olarak tasar
 
-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
 
PolyJ 
3. 
a-
a-
ri, 
 [5]. 
i-
 
 ru, 
 
 
 Savoniu 
a-
Savo l-
-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
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ol
 
 
il 8: 
4. TASARIM 
n-
 
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r-
kez silindire 120 derecelik 
 
 
tir. 
-BTS2017) (INTERNATIONAL SYMPOSIUM ON 3D PRINTING TECHNOLOGIES 3D-PTS2017)
5. 
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KAYNAKLAR 
[1] Akwa J.V., Vielmo H.A., Petry A.P., Review On The Performance Of Savonius Wind Turbines, Re-
newable and Sustainable Energy Reviews, 16: p3054-3064, 2012. 
[2] Joen K.S., Joeng J.I., Pan J.K., Ryu K.W., Effects Of End Plates With Various Shapes And Sizes On 
Helical Savonius Wind Turbines, Journal of Renewable Energy, 79: p167-176, 2015. 
[3] Lee C.S., Kim S.G., Kim H.J., Ahn S.H., Measurement Of Anisotropic Compressive Strength Of Ra-
pid Prototyping Parts, Journal of Materials Processing Technology, 187 188: p627 630, 2007. 
[4] Berman B., 3- -
162, 2012. 
[5] Roy S., Saha U.K., Wind Tunnel Experiments Of A Newly Developed Two-Bladed Savonius-Style 
Wind Turbine, Journal of Applied Energy, 137: p117-125, 2015. 
[6] Nakajima M., Iio S., Ikeda T., Performance Of Double-Step Savonius Rotor For Environmentally 
Friendly Hydraulic Turbine, Journal of Fluid Science and Technology, 3: p410 419, 2008.