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Flow across an Aeroplane

JJ Technical Solutions
JJ Technical Solutions

CFD analysis of air flow across an aeroplane wing is studied using CFD, using commercially available tools of Fluent and Gambit

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CFD ANALYSIS OF FLOW AROUND AEROFOIL FOR DIFFERENT ANGLE OF ATTACKS www.mechieprojects.com
PRESENTATION OUTLINE • AIM • INTRODUCTION • LITERATURE SURVEY • CFD ANALYSIS OF AEROFOIL • RESULTS • CONCLUSIONS www.mechieprojects.com
AIM • To understand the aerodynamic flow of air around an airfoil • To study the change of angle of attack on the lift and drag forces of an airfoil for a NACA series blade, using CFD (Fluent). www.mechieprojects.com
WHAT ARE AIRFOIL? • Mean Chamber Line: Set of points halfway between upper and lower surfaces » Measured perpendicular to mean chamber line itself • Leading Edge: Most forward point of mean chamber line • Trailing Edge: Most reward point of mean chamber line • Chord Line: Straight line connecting the leading and trailing edges • Chord, c: Distance along the chord line from leading to trailing edge • Chamber: Maximum distance between mean chamber line and chord line » Measured perpendicular to chord line • Airfoils are 3-D structures used to create aerodynamic forces
• Lift due to imbalance of pressure distribution over top and bottom surfaces of airfoil (or wing) – If pressure on top is lower than pressure on bottom surface, lift is generated 2. As V ↑ p↓ – Incompressible: Bernoulli’s Equation – Compressible: Euler’s Equation 3. With lower pressure over upper surface and higher pressure over bottom surface, airfoil feels a net force in upward direction → Lift HOW DOES AN AIRFOIL GENERATE LIFT? Lift = PA VdVdp Vp     constant 2 1 2 Most of lift is produced in first 20-30% of wing (just downstream of leading edge)
RESOLVING THE AERODYNAMIC FORCE • Relative Wind: Direction of V∞ • Angle of Attack, a: Angle between relative wind (V∞) and chord line • Total aerodynamic force, R, can be resolved into two force components – Lift, L: Component of aerodynamic force perpendicular to relative wind – Drag, D: Component of aerodynamic force parallel to relative wind
SYMMETRIC AIRFOIL Lift(fornow) Angle of Attack, a A symmetric airfoil generates zero lift at zero a
SAMPLE DATA: CAMBERED AIRFOIL Lift(fornow) Angle of Attack, a A cambered airfoil generates positive lift at zero a
NACA FOUR-DIGIT SERIES • First digit specifies maximum camber in percentage of chord • Second digit indicates position of maximum camber in tenths of chord • Last two digits provide maximum thickness of airfoil in percentage of chord Example: NACA 2415 • Airfoil has maximum thickness of 15% of chord (0.15c) • Camber of 2% (0.02c) located 40% back from airfoil leading edge (0.4c) NACA 2415
NACA 0029 • SYMMETRIC AEROFOIL • ZERO LIFT AT ZERO ANGLE OF ATTACK • WIDELY USED BLADE IN WIND TURBINES AND LOW SPEED AIRCRAFTS • LOT OF PREVIOUS STUDY ON THIS MODEL • COORDINATES GENERATED IN MS-EXCEL • COORDINATES EXPORTED TO AUTO-CAD AND PROFILE DRAWN. NACA 0029- Profile generated in solid works
Methodology • Profile co-ordinates generated in Excel • Profile drawn in Auto-Cad • Import geometry in Gambit and Meshing • Import mesh in Fluent and apply boundary conditions • Solve • Post Processing & Results • Boundary conditions: – Air – Velocity: 100m/s (at different angle of attack) – In-compressible fluid flow analysis (Low Mach) Velocity =100m/s Angle(deg.) Angle(rad.) cosθ sinθ X-velocity Y-velocity 0 0 1 0 100 0 5 0.087266 0.996195 0.087156 99.61947 8.715574 10 0.174533 0.984808 0.173648 98.48078 17.36482 15 0.261799 0.965926 0.258819 96.59258 25.8819 20 0.349066 0.939693 0.34202 93.96926 34.20201 45 0.785398 0.707107 0.707107 70.71068 70.71068
MESH GENERATED IN GAMBIT 20c 12.5c 25c www.mechieprojects.com
MESH GENERATED IN GAMBIT www.mechieprojects.com
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Flow comparison for 0 & 5 degree of attack
5000 100 150 200 450 Static Pr. Comparison for different angle of attack
5000 100 150 200 450 Velocity Comparison for different angle of attack
www.mechieprojects.com 00
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www.mechieprojects.com 100
5000 100 150 200 450 Pr. Coefficient Comparison for different angle of attack    q pp Cp 2 2 1         V pp q pp Cp 
Angle(deg.) Cl Cd 0 0 0.028 5 0.47 0.049 10 0.83 0.114 15 1.08 0.227 20 1.20 0.358 45 1.26 1.045 Results Conclusions 1.The flow around an aerofoil is plotted and studied. 2.The Lift & drag coefficients of NACA 0029 aerofoil is computed for different angle of attacks. 3.The lift coefficients is a linear function of angle of attack for lower α. 4.The drag coefficient is a non-linear function of α. 5.The results can be further validated through wind tunnel testing www.mechieprojects.com

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Flow across an Aeroplane

  • 1. CFD ANALYSIS OF FLOW AROUND AEROFOIL FOR DIFFERENT ANGLE OF ATTACKS www.mechieprojects.com
  • 2. PRESENTATION OUTLINE • AIM • INTRODUCTION • LITERATURE SURVEY • CFD ANALYSIS OF AEROFOIL • RESULTS • CONCLUSIONS www.mechieprojects.com
  • 3. AIM • To understand the aerodynamic flow of air around an airfoil • To study the change of angle of attack on the lift and drag forces of an airfoil for a NACA series blade, using CFD (Fluent). www.mechieprojects.com
  • 4. WHAT ARE AIRFOIL? • Mean Chamber Line: Set of points halfway between upper and lower surfaces » Measured perpendicular to mean chamber line itself • Leading Edge: Most forward point of mean chamber line • Trailing Edge: Most reward point of mean chamber line • Chord Line: Straight line connecting the leading and trailing edges • Chord, c: Distance along the chord line from leading to trailing edge • Chamber: Maximum distance between mean chamber line and chord line » Measured perpendicular to chord line • Airfoils are 3-D structures used to create aerodynamic forces
  • 5. • Lift due to imbalance of pressure distribution over top and bottom surfaces of airfoil (or wing) – If pressure on top is lower than pressure on bottom surface, lift is generated 2. As V ↑ p↓ – Incompressible: Bernoulli’s Equation – Compressible: Euler’s Equation 3. With lower pressure over upper surface and higher pressure over bottom surface, airfoil feels a net force in upward direction → Lift HOW DOES AN AIRFOIL GENERATE LIFT? Lift = PA VdVdp Vp     constant 2 1 2 Most of lift is produced in first 20-30% of wing (just downstream of leading edge)
  • 6. RESOLVING THE AERODYNAMIC FORCE • Relative Wind: Direction of V∞ • Angle of Attack, a: Angle between relative wind (V∞) and chord line • Total aerodynamic force, R, can be resolved into two force components – Lift, L: Component of aerodynamic force perpendicular to relative wind – Drag, D: Component of aerodynamic force parallel to relative wind
  • 7. SYMMETRIC AIRFOIL Lift(fornow) Angle of Attack, a A symmetric airfoil generates zero lift at zero a
  • 8. SAMPLE DATA: CAMBERED AIRFOIL Lift(fornow) Angle of Attack, a A cambered airfoil generates positive lift at zero a
  • 9. NACA FOUR-DIGIT SERIES • First digit specifies maximum camber in percentage of chord • Second digit indicates position of maximum camber in tenths of chord • Last two digits provide maximum thickness of airfoil in percentage of chord Example: NACA 2415 • Airfoil has maximum thickness of 15% of chord (0.15c) • Camber of 2% (0.02c) located 40% back from airfoil leading edge (0.4c) NACA 2415
  • 10. NACA 0029 • SYMMETRIC AEROFOIL • ZERO LIFT AT ZERO ANGLE OF ATTACK • WIDELY USED BLADE IN WIND TURBINES AND LOW SPEED AIRCRAFTS • LOT OF PREVIOUS STUDY ON THIS MODEL • COORDINATES GENERATED IN MS-EXCEL • COORDINATES EXPORTED TO AUTO-CAD AND PROFILE DRAWN. NACA 0029- Profile generated in solid works
  • 11. Methodology • Profile co-ordinates generated in Excel • Profile drawn in Auto-Cad • Import geometry in Gambit and Meshing • Import mesh in Fluent and apply boundary conditions • Solve • Post Processing & Results • Boundary conditions: – Air – Velocity: 100m/s (at different angle of attack) – In-compressible fluid flow analysis (Low Mach) Velocity =100m/s Angle(deg.) Angle(rad.) cosθ sinθ X-velocity Y-velocity 0 0 1 0 100 0 5 0.087266 0.996195 0.087156 99.61947 8.715574 10 0.174533 0.984808 0.173648 98.48078 17.36482 15 0.261799 0.965926 0.258819 96.59258 25.8819 20 0.349066 0.939693 0.34202 93.96926 34.20201 45 0.785398 0.707107 0.707107 70.71068 70.71068
  • 12. MESH GENERATED IN GAMBIT 20c 12.5c 25c www.mechieprojects.com
  • 13. MESH GENERATED IN GAMBIT www.mechieprojects.com
  • 19. Flow comparison for 0 & 5 degree of attack
  • 20. 5000 100 150 200 450 Static Pr. Comparison for different angle of attack
  • 21. 5000 100 150 200 450 Velocity Comparison for different angle of attack
  • 25. 5000 100 150 200 450 Pr. Coefficient Comparison for different angle of attack    q pp Cp 2 2 1         V pp q pp Cp 
  • 26. Angle(deg.) Cl Cd 0 0 0.028 5 0.47 0.049 10 0.83 0.114 15 1.08 0.227 20 1.20 0.358 45 1.26 1.045 Results Conclusions 1.The flow around an aerofoil is plotted and studied. 2.The Lift & drag coefficients of NACA 0029 aerofoil is computed for different angle of attacks. 3.The lift coefficients is a linear function of angle of attack for lower α. 4.The drag coefficient is a non-linear function of α. 5.The results can be further validated through wind tunnel testing www.mechieprojects.com