The Universal Journal of Aerodynamics covers activity and development in the field of innovative developments in all kinds of aerodynamics related to mechanical engineering, aeronautical, aerospace, as well as to other engineering disciplines. Research in all types of aircraft, like commercial and military aircraft, spacecraft, airframes, aerostructures, turbulent layer methods, incompressible flows, compressible flows, computational fluid dynamics, road and off-road vehicles, rail and tracked vehicles, aerodynamic panel methods, etc. is included. Contributions can be either analytical, experimental or numerical, covering all aspects of the theory of aerodynamics. So, the papers published should present innovative analytical and numerical methods and novel experimental methods, as well as non-linear methods and results, which should be far beyond the current "state of art".

 

Volume 1 (2013)

1. Two-dimensional Aerodynamics by  Finite-Part Singular Integro-Differential  Equations

 Pages 1-14

 E.G.Ladopoulos

 

2. Planar Airfoils in Two-dimensional Aerodynamics by Non-linear Multidimensional Singular Integral Equations

 Pages 15-28

 E.G.Ladopoulos

 

Volume 2 (2014)

1. Special Aerodynamics for Next Generation Aircraft & Spacecraft by Universal Mechanics

 Pages 1-17

 E.G.Ladopoulos

 

2. New Aerodynamics for Future Spacecraft with no Speed Limits

 Pages 18-34

 E.G.Ladopoulos

 

3. Next Generation Multiphase Pumps for Wet Gas Compression

 Pages 35-42

 E.G.Ladopoulos

 

Volume 3 (2015)

1. New Sophisticated Model for Wet Gas Compression by Last Generation Multiphase Pumps

 Pages 1-8

 E.G.Ladopoulos

 

2. Universal Mechanics for Next Generation Aerodynamics of Future Aircraft & Spacecraft

 Pages 9-25

 E.G.Ladopoulos

 

3. Aerodynamic Behavior of Modern Multiphase Pumps for Wet Gas Compression in Petroleum Engineering

 Pages 26-33

 E.G.Ladopoulos

 

4. Wing with Soft Skin: The Effectiveness and Assessment

 Pages 34-40

 G. Ortamevzi,  D. Zinchenko

 

Volume 4 (2016)

1. Next Generation Multiphase Pumps Aerodynamic Behavior for Wet Gas Compression in Oil & Gas Engineering

 Pages 1-8

 E.G.Ladopoulos

 

2. Unsteady Cascade Aeroelasticity by Non-linear Singular Integral Equations Analysis for Steam Generation

 Pages 9-15

 E.G.Ladopoulos

 

 

 Volume 5 (2017)

1. Wet Gas Compression in Petroleum Engineering by New Generation Multiphase Pumps

 Pages 1-8

 E.G.Ladopoulos

 

2. Steam Assisted Gravity Drainage (SAGD) by Non-linear Singular Integral Equations in Unsteady Cascade Aeroelasticity

 Pages 9-15

 E.G.Ladopoulos

 

3. Universal Mechanics by Non-linear Aerodynamics for New Generation Aircraft & Spacecraft

 Pages 16-32

 E.G.Ladopoulos

 
  

Volume 6 (2018)

1. Aerodynamic behavior of Next Generation Multiphase Pumps for Wet Gas Compression in Oil & Gas Engineering

 Pages 1-8

 E.G.Ladopoulos

 

2. New Contributions in Unsteady Cascade Aeroelasticity by Non-linear Singular Integral Equations using Steam Generation

 Pages 9-15

 E.G.Ladopoulos

 

3. New Aspects in Unsteady Cascade Aeroelasticity by Non-linear Singular Integral Equations using Steam Assisted Gravity Drainage (SAGD)

 Pages 16-22

 E.G.Ladopoulos

 

 

 

Volume 7 (2019)

1. New Aspects of Modern Multiphase Pumps for Wet Gas Compression in Petroleum Engineering by improving the Aerodynamic Behavior

 Pages 1-8

 E.G.Ladopoulos

 

2. Modern Aspects of Steam Generation in Unsteady Cascade Aeroelasticity by Non-linear Singular Integral Equations Methods

 Pages 9-15

 E.G.Ladopoulos

 

3. Modern Contributions in Steam Assisted Gravity Drainage (SAGD) by using Non-linear Singular Integral Equations for Unsteady Cascade Aeroelasticity

 Pages 16-22

 E.G.Ladopoulos
 

 

 

Volume 8 (2020)   DOI  10.13140/RG.2.2.23728.89601

1. Are Modern Multiphase Pumps the best Device for Wet Gas Compression in Oil & Gas Engineering ? What will be Next ?

 Pages 1-8

 E.G.Ladopoulos

 

2. Is the Non-linear Singular Singular Integral Equations Method the best Device for Steam Generation Method in Unsteady Cascade Aeroelasticity ? What will be Next ?

 Pages 9-15

 E.G.Ladopoulos

 

 

 
 

Volume 9 (2021)   DOI  10.13140/RG.2.2.11931.18723

1. An Overview of ESP Artificial Lift for Petroleum Well Development

 Pages 1-14

 E.G.Ladopoulos

 

2. An Overview of the Non-linear Singular Integral Equations Method for Steam Assisted Gravity Drainage Method (SAGD) in Unsteady Cascade Aeroelasticity

 Pages 15-21

 E.G.Ladopoulos  

 

3. About an Energy World by using the Theory of Universal Mechanics in Future Aircraft & Spacecraft

Pages 22-38

E.G.Ladopoulos 

 

 

 

 Volume 10 (2022)   DOI  10.13140/RG.2.2.10809.85609

1. The Leading Technology of ESP Artificial Lift for Oil Well Development

 Pages 1-14

 E.G.Ladopoulos

 

2. The Leading Technology of Steam Generation Method for Unsteady Cascade Aeroelasticity by using Non-linear Singular Integral Equations

 Pages 15-22

 E.G.Ladopoulos

 

3. The Leading Technology of Non-linear Singular Integral Equations Method for Steam Assisted Gravity Drainage (SAGD) in Unsteady Cascade Aeroelasticity

 Pages 23-29

 E.G.Ladopoulos

 

 

 
 Volume 11 (2023)   DOI  10.13140/RG.2.2.13252.40324

1. Groundbreaking Method of ESP Artificial Lift for Petroleum Well Development

 Pages 1-14

 E.G.Ladopoulos

 

2. Groundbreaking Method of Steam Generation for Unsteady Cascade Aeroelasticity by Non-linear Singular Integral Equations

 Pages 15-22

 E.G.Ladopoulos

 

3. Groundbreaking Method by Non-linear Singular Integral Equations for Steam Assisted Gravity Drainage (SAGD) in Unsteady Cascade Aeroelasticity

 Pages 23-29

 E.G.Ladopoulos