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Renowned Speakers

James F Woodward

James F Woodward

California State University USA

Timothy Sands

Timothy Sands

Mechanical Engineering, Stanford University, USA

Brendan J O Toole

Brendan J O Toole

University of Nevada Las Vegas, USA

Isaac Elishakoff

Isaac Elishakoff

Florida Atlantic University, USA

Peng-Sheng Wei

Peng-Sheng Wei

National Sun Yat-Sen University, Taiwan

Youssef S Matter

Youssef S Matter

United Arab Emirates University, UAE

Hasan Oktem

Hasan Oktem

Kocaeli University, Turkey

Sheldon Q Shi

Sheldon Q Shi

University of North Texas, USA

Aerodynamics 2018

About Conference


Conference Series LLC Ltd  welcomes you to attend the  “ 7th International Conference on Aerodynamics, Fluid dynamics and Aerospace engineering” (Aerodynamics 2018) scheduled to be held during November 12-13, 2018 at Melbourne, Australia . The conference invites all the participants across the globe to attend and share their insights and convey recent developments in the field of Aerodynamics, Fluid dynamics and Aerospace engineering. 

On this auspicious occasion, Organizing Committee invites the participants from all over the globe to take part in this annual flagship conference with the theme “Evolution & Innovation Continues -The Next 150 Years of Conceptualization in Aerodynamics”. Aerodynamics 2018 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of Aeronautics, Astronautics,Fluid dynamics, Space Flight MechanicsFluid mechanics, Heat transfer and Physics to share their research experiences and indulge in interactive discussions and technical sessions at the event. The Conference will also have a space for companies and/or institutions to present their services, products, innovations and research results. If your company/organization is interested in participating in this event, contact us here

Why to attend?

Aerodynamics 2017 unites applications from various scientific disciplines, pushing the frontiers of Aerospace, Aerodynamics, fluid dynamics and Aeronautics. Aerodynamics Conference represents the huge area where the focus lies on developing product-related technologies with rapid advancement in research in recent years. It is true that fundamental work on materials has turned up with unexpected momentous discoveries, but more frequently, Aerodynamics Engineering Conferences, importance and significance can be gauged by the fact that it has made huge advancements over the course of time and is continuing to influence various sectors.

Aerospace conference is an emerging and challenging field in today's world. The mission of the aerospace expo is to educate the nation's future leaders in the science and art of mechanical and aerospace engineering. Further, seeks to expand the frontiers of engineering science and to persuade technological innovation while nurturing both academic and Industry excellence.

The joy of attending Aerodynamics 2018 brings with it improvement and incremental growth in your approach to do things, in the broader manner to see things and the beauty to live international diversity.

Come be Part of it...!

Who's Coming to  Aerodynamics 2018?

  • CEOs / CMOs                                                         
  • CTOs 
  • VPS, Directors, & Managers
  • World top Ranked Scientists                          
  • Researchers                                                            
  • Universities
  • Design Engineers
  • Aerospace and Aerodynamics companies
  • Tool and Materials companies And Many More..

 

Aerodynamics

Aerodynamics is the study of air in which object move through it. The rules of aerodynamics explain how an aeroplane , kite and acrobats is able to fly . Aerodynamics even acts on cars, since air flows around cars .There are four aerodynamics forces acting on a flying object are thrust ,drag ,lift and weight. The branch of fluid dynamics  and gas dynamics  is aerodynamics  , and many characteristic of aerodynamics theory are common to these fields.

Automotive Aerodynamics

Automotive aerodynamics is the study of the aerodynamics of road vehicles. Drag force in vehicle aerodynamics is primarily of three forces. Bicycle aerodynamics and semi truck aerodynamics both  comes within the domain of automotive aerodynamics

Aircraft aerodynamics

The study of air and how it works when an object moves through it. There are four basic aerodynamic forces in effect on any moving aircraft. These four forces of flight are weight, lift, drag and thrust .Thrust and drag are opposing forces and lift and weight are opposing forces. The movement of the aircraft in the air depend upon the how much of each force applied in comparison to the opposing force.

Aerodynamic lift force

The force that directly opposes the weight of an airplane and holds the airplane in the air is known as  Lift force. Lift is generated by every part of the airplane, but most of the lift on a normal airliner is generated by the wings. Lift is a mechanical aerodynamic force produced by the motion of the airplane through the air.This force is called an aerodynamics lift force.

Aerodynamics in cars

It is essential that aerodynamics be taken into account during the design of cars as an improved aerodynamics in car would attain

1. More fuel efficiency

2 .Higher speeds

3. Stylish appearance of car

4. More stability of car at higher speed

5. Reduces noise level

Thrust aerodynamics

Thrust is the force which moves an aircraft through the air. Thrust is used to describe how strongly an engine accelerates in one direction. It can be used for many kinds of vehicles and engines such as rockets, airplanes, plane engines, and jet engines.

Aerospace engineering

Aerospace engineering  deals with the design, testing, development and production of aircraft and spacecraft. It has two major and overlapping branches:-

1.       Aeronautical engineering

2.       Astronautical Engineering

Aerospace

Aerospace is the human effort in science, engineering and the branch of technology and industry concerned with both aviation and space flight.

Aerospace propulsion

The pushing forward or drive an object forward comes under propulsion .  Source of mechanical power , and a propulsor (means of converting this power into propulsive force) consists of propulsion system.

Fluid dynamics

Fluid dynamics is the study of the motion of liquids, gases and plasmas. Flow is independence on the intrinsic properties of the matter itself, such as compressibility, viscosity and density.It is a subdivision of fluid mechanics that describes the flow of liquids and gases . The other branch of fluid mechanics  is fluid statics, which deals with fluids at rest.

Computational fluid dynamics

Computational fluid dynamics  is a branch of fluid mechanics. It uses mathematics ,physics and computational software  to analyze problems that involve fluid flows and to solve them as well as how a gas or liquid flows. It is totally based on the Navier –Stokes equations. These equations shows how the velocity ,pressure ,temperature ,and density of a moving fluid are related.

Vorticity fluid dynamics

Vorticity is a pseudovector field that describes the tendency of something to rotate. It is defined as the curl of the velocity field and is hence a measure of local rotation of the fluid. This definition makes it a vector quantity. The line integral of the velocity field along a closed contour is defined as the scalar quantity.

Aeroelasticity

Aeroelasticity is the branch of physics and aerospace engineering  that studies the interactions between  aerodynamic forces and non-rigid structures that occur when an elastic body is exposed to a fluid flow.

Aeronautics

Aeronautics is the branch of aeronautical engineering  in which it involves the study of design and manufacture of flight-capable machines , or the techniques of operating craft.

Aero-Acoustics

Aero-acoustics is the  study of sound generated by Turbulent Fluid motion  or Aerodynamics forces or the interaction of fluid flows with solid boundaries .Aero-Acoustics provides such approximations and at the same time a definition of the acoustical field as an extrapolation of an ideal reference flow. The difference between the actual flow and the reference flow is identified as a source of sound.

Fluid mechanics

Fluid mechanics is the branch of physics that concerned with the study of forces and flow within fluids . Fluid Mechanics deals with the mechanical properties of gasses and fluids. Fluid Mechanics can be divided into liquid statics,( the investigation of liquids very still) or liquid motion,( the investigation of the impact of powers on smooth movement).

Avionics

Avionics is a field concerned with all electrical equipment used in missiles, aircraft and spacecraftAvionics deals with components the pilot directly uses, such as weather, navigation, radar, and radio communication equipment.

Fast Fluid Dynamics

To solve the incompressible Navier-Stokes equations  a technique is  used called fast fluid dynamics(FFD). This method has the advantage of being very fast to run and relatively simple to code.

Fluid dynamics bearing

Fluid dynamic bearing  and Hydrostatic bearings are fluid film bearings that depend on a film of oil,water or air to create a clearance between the moving and stationary elements. Fluid dynamics bearing depend on the high speed of the journal to pressurize the fluid in a wedge between the faces.

Heat Transfer

The transfer of heat from one form of energy to another form  i.e  from a higher temperature to a low temperature body. There are three modes of heat transfer:-

1.       Conduction

2.       Convection

3.       Radiation

Automation

Automation is the use of machines and technology to make processes run on their own without manpower such as machinery, processes in factories, boilers and heat treating ovens , steering and stabilization of ships, switching on telephone networks , aircraft and other applications.

 

Sessions/ Tracks

Track 1: Advanced Aerodynamics – Field of study

This session of Aerodynamics is concerned with doing basic researches on a variety of Aerodynamics fields like Acoustics, gas dynamics and Fluid dynamics , Transonic and subsonic Aerodynamics , wind energy and design. The main motto of this field of aerodynamics is to make the application of these researches in various fields and contribute to the development.

This session represents with original research, contemporary developments in applied Aerodynamics principles, application in race car design and optimisation, application in industry, Rocket Aerodynamics, Aircraft drag reduction ,parachute design, Aircraft lift rehancement and many more of this category.

Advanced Aerodynamics Market to grow at a CAGR: 10.02%  during the period 2017-2021.

The global Aerodynamics market is anticipated to reach EUR 222 billion by 2021, according to a new market reports. Development of novel aerodynamics is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 2: Opportunities in Aerospace Engineering

This session of Aerospace Engineering is concerned with the design, development, testing, and production of aircraft and spacecraft. Aerospace activity is very diverse, with a multitude of commercial, industrial and military applications. The  Field Aerospace Engineering will address to the need of clean technologies that involve carbon capture and storage, investment in renewable sources of energy, alternative fuels .

This session represents with original research, contemporary developments in theory and methodology, and state-of-the-art applications of Aerodynamics areas that are featured in the session include aeronautical engineering, astronautical engineering, Aerospace Materials, Aeronautics ,Aeroacoustics , Aeroelasticity and many more.

Aerospace Engineering  is expected to witness growth at a CAGR of 4.1% from 2017 to 2025

The global catalyst market is expected to reach US$ 99.5 billion by 2025, according to a new report by Credence Research, Inc. It also includes in-depth analysis of technology development and pricing trends in the global Aerospace engineering market. High level analysis such as attractive proposition, competitive analysis, value chain analysis and market attractive analysis included in the report helps industry players to identify key investment areas in this industry.

Track 3: Aerospace System Design and Simulation

The session of Aerospace System Design and Simulation involves the study of methods and techniques necessary for the design of aerospace systems and their components. Aerospace systems research focuses on designing and analyzing complex systems, using a combination of theoretical, computational, and experimental techniques.

This session represents with original research, contemporary developments in theory and methodology of Aerospace System Design and Simulation . The areas featuring the session includes aerodynamics, propulsion, optimization, controls, simulation, network theory, and data-driven modeling.

Simulation  Market Size worth USD 13.45 Billion By 2022 | CAGR: 16.5%

The Global Simulation Software Market to Grow from USD 6.26 Billion in 2017 to USD 13.45 Billion By 2022, according to a new report by Lucintel’s market reports. Development of novel Aerospace system design is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 4: Aircraft stability and control

The session of Aircraft stability and control  characterizes the motion of a flight vehicle in the atmosphere. In stability and control the short- and intermediate-time response of the attitude and velocity of the vehicle is considered. Stability considers the response of the vehicle to perturbations in flight conditions from some dynamic equilibrium, while control considers the response of the vehicle to control inputs..

Moreover, this session represents with original research, contemporary developments in theory and methodology of Aircraft stability and control . The response of the vehicle to aerodynamic, propulsive, and gravitational forces, and to control inputs from the pilot determine the attitude of the vehicle and its resulting flight path.

The aerospace control surface market is expected to reach an estimated $4.3 billion by 2021 at a CAGR of 3.1% from 2016 to 2021

The global Aircraft market is anticipated to reach  $4.3 billion by 2021, according to a new report by Lucintel’s market reports. Development of Aircraft is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 5:  Airship design and development

This session of  Airship design and development is concerned with the designing of aircraft driven by the needs and opportunities of the future market.  It includes remotely organized airship design, Bio inspired and bio-mimetic micro flyers, Electric aircraft concept for unmanned air vehicles and armed flight, Remotely organized airship design and Design and modeling of solar-powered aircrafts

This session represents with original research, contemporary developments in theory and methodology of Airship design and development . The areas featuring the session includes Hydrogen powered aircrafts- future technology, Design and modelling of solar-powered aircrafts, Thermal Protection System, Remotely controlled airship design, Trajectory optimization for stratospheric airship.

The global aircraft seating market is expected to grow $ 16.99 Billion by 2022, at a CAGR of 14.15% during 2016 to 2022. Factors like the rising demand for new aircraft deliveries, air travel, and the up gradation of aircraft program is anticipated to drive the market. The major key players of this market are Aviointeriors S.P.A, Acro Aircraft Seating Ltd., B/E Aerospace Inc., Recaro Aircraft Seating GmbH & Co. Kg, Geven S.P.A, Haeco Americas, Stelia Aerospace, ZIM Flugsitz GmbH, Thompson Aero Seating Ltd., and Zodiac Aerospace.

Track 6:  Recent development in Astronautics

This session of Astronautics is concerned with the main design, manufacturing, as well as the science of aircraft needed in order to perform and function outside the atmosphere of the earth. This sub field of aerospace engineering generally deals with space stations and rocket satellites.

This session represents with original research, contemporary developments in theory and methodology of Astronautics . The areas featuring the session includes Astrodynamics, Spacecraft design, Atmospheric entry, Spacecraft propulsion.

Aerospace Engineering  is expected to witness growth at a CAGR of 4.1% from 2017 to 2025

The global catalyst market is expected to reach US$ 99.5 billion by 2025, according to a new report by Credence Research, Inc. It also includes in-depth analysis of technology development and pricing trends in the global Aerospace engineering market. High level analysis such as attractive proposition, competitive analysis, value chain analysis and market attractive analysis included in the report helps industry players to identify key investment areas in this industry.

Track 7:  Recent advances in  Fluid Mechanics

This session of Fluid Mechanics deals with the mechanical properties of gasses and fluids. The various intrinsic properties of Fluid Mechanics the matter like compressibility, viscosity and density decides the flow characteristics, example:- air flowing across the aeroplane wing, liquid flowing through pipe etc. thus the study  of the subject  provides us  the better design, predictability, efficiency, and control of systems that involve fluids.

This session represents with recent advancement and contemporary developments in Fluid Mechanics. The areas featuring the session includes Fluid dynamics, Fluid Flow, Hydrodynamics, Bio-Fluid Mechanics, HydrodynamicsMicrofluid, Thermo-Fluid dynamics.

Computational fluid dynamics (CFD)  market in APAC to grow at a CAGR of 10.28% during the period 2018-2022.

Computational Fluid Dynamics (CFD) Market in APAC 2018-2022, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years.

Track 8: Emerging technology on Aeronautics

This session of Aeronautics is the design and construction of airplanes and other aircraft that fly within the atmosphere. It is the study of the science of flight that include physics concepts like Newton's laws of motion; aerodynamics, the motion of air; and Bernoulli's principle of lift.

This session primarily represents with original research, contemporary developments in theory of Aeronautics, Aerodynamics, propulsion , Materials and structures, Stability and control, Aeronautical physics, ATC (Air Traffic Control), Airfoil Technology, Aircraft structures.

Advanced Aerodynamics Market to grow at a CAGR: 10.02%  during the period 2017-2021.

The global Aerodynamics market is anticipated to reach EUR 222 billion by 2021, according to a new market reports. Development of novel aerodynamics is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 9: Heat Transfer Systems

This session of Heat Transfer focuses on the exchange of thermal energy between the two physical bodies is called study of Heat Transfer, the rate of transferred heat is directly proportional to the temperature difference between the bodies. The three modes of heat transfer are Conduction, Convection and Radiation. Some of the research topics are heat transfer on the internal and external of the missiles, heat fluctuations in the pipe, heat transfer in the Automotive and Aircraft domain.

This session primarily represents with original research, contemporary developments in theory of heat transfer systems. Heat Transfer plays a major role in designing aerospace vehicles since high heat generation occurs during its operation.

The Global Heat Transfer Fluids Market to grow at a CAGR 9.8% during the period 2016-2025

The Global Heat Transfer Fluids Market is poised to grow at a CAGR of around 9.8% over the next decade to reach approximately $4.2 billion by 2025 according to a new report by Research and Markets. Development of  Heat Transfer systems is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 10: Rocket Propulsion and Combustion

Propulsion encompasses all aerospace systems generating thrust. Thrust is the force which moves any aircraft through the air. Thrust is generated by the propulsion system of the aircraft. In any propulsion system, a working fluid is accelerated by the system and the reaction to this acceleration produces a force on the system. A general derivation of the thrust equation shows that the amount of thrust generated depends on the mass flow through the engine and the exit velocity of the gas.

Rocket engines and gas turbines, on the other hand, rely on the reactions between fuel and oxidizer molecules (combustion), and the heat it produces to expand the exhaust gases and ultimately generate thrust.

Rocket and Missile Market Size worth USD 70.00 Billion By 2022 | CAGR: 4.74%

The rocket and missile market is projected to grow from USD 55.53 billion in 2017 to USD 70.00 billion by 2022, at a CAGR of 4.74% from 2016 to 2022, according to a new report by Research and Markets. Development of Rocket Propulsion and Combustion is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 11: Avionics

Avionics is a field concerned with all electrical equipment used in missiles, aircraft and spacecraft. Avionics deals with components the pilot directly uses, such as weather, navigation, radar, and radio communication equipment. In addition, avionics also encompasses of other electronic systems not directly used by the pilot like the ones for control and monitoring of flight and engine performance.

Avionics Market Size worth $31.23 Billion By 2023 | CAGR: 4.7%

The Global Commercial Avionics Systems market is estimated at $22.56 billion in 2016 and is expected to reach $31.23 billion by 2023 growing at a CAGR of 4.7% from 2016 to 2023. Factors such as rising trend of modernization of airspace, increasing passenger traffic in emerging economies and technological advancements in the aviation industry are influencing the market growth.

Track 12: Unmanned Air Vehicles

In this session of Unmanned Air Vehicles focused on design, navigation, and industrial applications. UAV is an acronym for Unmanned Aerial Vehicle, which is an aircraft with no pilot on board. UAVs can be remote controlled aircraft (e.g. flown by a pilot at a ground control station) or can fly autonomously based on pre-programmed flight plans or more complex dynamic automation systems.

This session primarily represents with original research, contemporary developments in theory of Unmanned Aerial Vehicle. UAVs are used in a wide variety of applications that include aerial photography, product delivery, search and rescue, wildlife surveys, weather monitoring, agriculture and aerial crop surveys, construction, journalism, law enforcement, military reconnaissance, and visual inspection of infrastructure like bridges, roads, and power lines.

Unmanned Aerial Vehicle Market Size worth $1.2 Billion By 2020 | CAGR: 11.4%

The global drone market is expected to grow from $639.9 million in 2014 to $725.5 million in 2015. This market is further expected to grow to $1.2 billion by 2020 with a compound annual growth rate (CAGR) of 11.4% for the forecast period, 2015-2020. Middle East Unmanned Aerial Vehicle (Drone) Market is projected to grow at a CAGR of over 30% during 2018-2024.

Track 13: Space Systems

This session of Space Systems focused on space guidance, navigation, and control; entry, descent, and landing systems; planetary exploration systems; orbital mechanics; space mission design and optimization; robotics; autonomy. Space systems are vehicles and infrastructure working together to perform a task in the space environment. We depend on space systems every day for communication, navigation and weather prediction services.

This session represents with original research, contemporary developments in the field of Space Systems. Current research Organization include NASA, NSF, NIH, DARPA, AFRL, DHS, ARL, DoE and industry.

Space Systems market size worth $940.2 Million By 2022 | CAGR: 51.8%

The global free space market is expected to grow $940.2million at CAGR 51.8% during 2016-2022, according to a new report. Development of Space Systems is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 14: Satellite Communication System

Communications Satellite  relays and amplifies radio telecommunications signals through a transponder. It creates a communication channel between  source transmitter and  receiver at different locations on Earth. Wireless Communication utilizes electromagnetic waves to carry signals. The purpose of communications satellites is to relay the signal around the curvature of the Earth allowing communication between widely separated points. To avoid signal interference, International organizations have regulations for which Frequency Bands are allotted to use. This allocation of bands minimizes the risk of signal interference.

Satellites orbit Earth at different heights, speeds and along different paths. The two most common types of orbit are "geostationary and "polar." A Geostationary Satellite travels from west to east over the equator. Following are the applications: Fixed Service Satellite, Direct Broadcast Satellite, Satellite Broadband, Nanosatellites .

The global satellite manufacturing and launch market to grow at a CAGR of 4.95% during the period 2016-2020. As of May 2017, there are approximately 1,460 satellites operational, out of which around 5%-6% are used for remote sensing applications, and approximately 10%-12% satellites are dedicated for Earth observation purposes. The global remote sensing satellite market to grow at a CAGR of  5.59% during the period 2017-2021.

Track 15: Aero-acoustics

This session of Aero-acoustics  focuses on computational aero- acoustics, using theory to guide and interpret the simulations. Aeroacoustics is centrally concerned with the generation and propagation of sound through a fluid. The prefix aero implies air, but one can also include sound in other fluids, such as water (also called hydroacoustics).

This session represents with original research, contemporary developments in the field of Aero-acoustics. Research field of aero-acoustics is primarily concerned with the generation, propagation, and minimization of sound produced by engineering and biological systems.

Advanced Aerodynamics Market to grow at a CAGR: 10.02%  during the period 2017-2021.

The global Aerodynamics market is anticipated to reach EUR 222 billion by 2021, according to a new market reports. Development of novel aerodynamics is driven by the need to extend the applications and continuously modify the ways of research and contribute to development.

Track 16: Astrodynamics

This session of Astrodynamics focuses on  both the theoretical and Practical aspects with its applications to asteroid interception and rendezvous, solar sail and tether system design, in-space propulsion assessment, integrated technology assessment, technologies for the Evolutionary Mission Trajectory Generator, low energy manifold trajectory design.

This session represents with original research, contemporary developments in theory of astrodynamics. Emphasis will be on the coverage of some current technologies and the research associated with it. Magnetic attitude determination and control, multifunction stochastic optimization, parallel nonlinear optimization, automated trajectory optimization, on-orbit servicing missions, and ground station coverage problems would be the featuring topics of this  session.

Aerospace Engineering  is expected to witness growth at a CAGR of 4.1% from 2017 to 2025

The global catalyst market is expected to reach US$ 99.5 billion by 2025, according to a new report by Credence Research, Inc. It also includes in-depth analysis of technology development and pricing trends in the global Aerospace engineering market. High level analysis such as attractive proposition, competitive analysis, value chain analysis and market attractive analysis included in the report helps industry players to identify key investment areas in this industry.

Track 17: Major challenges in Space Flight Mechanics

This session of Space Flight Mechanics focuses on  both the theoretical and Practical aspects with its applications to development of spacecraft, instruments and software, testing and validation of space systems, space situational awareness, space science and technology mission design, orbital infrastructure to support human exploration, and planetary defense.

This session represents with original research, contemporary developments in theory of Space Flight Mechanics. This field includes research that establishes new theoretical results, defines new computational algorithms, performs unique analysis and experiments, and creates technology that changes engineering practice. Advancements from this research are applied to airplanes, rotorcraft, launch vehicles, satellites, space probes, missiles, projectiles, parachutes, Para foils, the air transportation system, and others.

Aircraft flight control system market size worth USD 16.59 Billion By 2021 | CAGR: 6.97%

The aircraft flight control system market is projected to grow from USD 11.85 billion in 2016 to USD 16.59 billion by 2021, at a CAGR of 6.97% from 2016 to 2021. The growth of the aircraft flight control system market is dependent on the increased number of deliveries of passenger aircraft, fighter jets, helicopters, ultralight aircraft, and unmanned aerial vehicles in various countries across the world.

Track 18: Flight Vehicle Navigation/Air Navigation

This session of Flight Vehicle Navigation is concerned with navigation, which includes the process of planning, recording, and controlling the movement of a craft from one place to another. The techniques used for navigation in the air will depend on whether the aircraft is flying under visual flight rules (VFR) or instrument flight rules (IFR).

Moreover, this session represents with original research, contemporary developments in theory and methodology of Flight Vehicle Navigation. This field includes unified aircraft and underwater steering, Steering of land vehicles in battle field, Satellite broadcasting based and ground based air navigation, GPS-based relative navigation of satellites and Controller, steering and smash avoidance for unmanned inflight vehicle.

Flight Vehicle Navigation market to grow at a CAGR of 7.29% during the period 2017-2021 .

Radar, Navigation, Sonar, Space Vehicle Guidance, Flight Systems and Marine Instrument Manufacturing Industry (U.S.) to reach $62,185 million by 2023.

Track 19:  Turbomachinery

This session of Turbomachinery research focuses on designed and developed for commercial, industrial, military, and aerospace applications. Examples of turbomachines for aerospace applications include turbinedriven electrical and hydraulic power systems, turbopumps for propellant transfer and pressure boosting, and turbo-machinery for long duration space power systems where the raw energy is derived from the sun or man-made nuclear devices.

This session represents with original research, contemporary developments in theory of turbomachinery. These turbomachines include pumps, compressors, fans and blowers,thermo-fluid dynamics, steam turbines, hydraulic turbines  and wind turbines for prime movers. Other applications include turbines for generating shaft power.

Turbomachinery market to grow at a CAGR of 5.17% during the period 2017-2023.

Track 20:  Computational Fluid dynamics Methodology

This session of Computational Fluid dynamics focuses on the theory, research,numerical analysis and data structures to solve and analyze problems that involve fluid flows as well as how the gas or liquid affects objects as it flows past. Computational fluid dynamics is based on the Navier-Stokes equations. CFD is used to predict the drag, lift, noise, structural and thermal loads, combustion, etc., performance in aircraft systems and subsystems

This session represents with recent advancement and contemporary developments in Computational Fluid dynamics CFD is frequently used to study how fluids behave in complex scenarios, such a boundary layer transition, turbulence and sound generation, with applications throughout and beyond aerospace engineering.

Computational fluid dynamics (CFD)  market in APAC to grow at a CAGR of 10.28% during the period 2018-2022.

Computational Fluid Dynamics (CFD) Market in APAC 2018-2022, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years.

 

Related Conferences:

Aerodynamics Conference | Aerospace engineering Conferences | Fluid dynamics Conferences | Astrodynamics Conferences | Astronautics | Aeronautics | Mechanical Engineering Conferences | Aeronautics and Space

2nd Global Summit and Expo on Fluid Dynamics and Aerodynamics Conferences, October 19-20, 2017, Rome, Italy ; 3rd International Conferences on Automobile Engineering, September 28-29, 2017 Berlin, Germany; 4thInternational Conference on Actual Problems Of Unmanned Aerial Vehicles Developments, 17 Oct 2017 - 19 Oct 2017 ,Kiev, Ukraine ; Aerospace Structural Impact Dynamics International Conference,17 Oct 2017 - 19 Oct 2017, Wichita, Kansas, United States; Avionics And Vehicle Fiber-Optics And Photonics Conference,07 Nov 2017 - 09 Nov 2017, New Orleans, LA, United States; International Conference On Aerospace And Signals, 08 Nov 2017 - 10 Nov 2017, Lima, Peru; International Conference On Space Optical Systems And Applications, 14 Nov 2017 - 16 Nov 2017, Naha, Japan ; Aerospace Conference, 03 Mar 2018 - 10 Mar 2018, Big Sky, MT, United States; 2nd International Conference On Mechanical, Material And Aerospace Engineering, 10 May 2018 - 13 May 2018, Wuhan, China; International Conference On Unmanned Aircraft Systems, 12 Jun 2018 - 15 Jun 2018, Dallas, TX, United States; Aviation Electronics Europe, 19 Jun 2018 - 20 Jun 2018, Munich, Germany;  Avionics & Space Testing Europe 2018, 19 Jun 2018 - 20 Jun 2018, Munich, Germany;

Societies:

USA: The Aerospace Industries Association (AIA) | American Astronautical Society| The American Institute of Aeronautics and Astronautics (AIAA) | Association For Unmanned Vehicle Systems International (AUVSI) | Experimental Aircraft Association (EAA)|

Europe: Technical Chamber of Greece, Greece | Institution of Engineers of Ireland |Association Aéronautique et Astronautique de France (AAAF), France|Advancing UK Aerospace Defence and Security Industries (A|D|S), United Kingdom| Ordem dos Engenheiros, Portugal | Russian Union of Engineers, Russia

Asia: Hong Kong Institution of Engineers | Aeronautical Society of India | Indian Institution of Industrial Engineering | SJAC Society of Japanese Aerospace CompaniesIndian Society for Technical Education |

 

Market Analysis

Summary of Aerodynamics  2018 Conference:

Aerodynamics 2018 feels proud and happy to invite scientists, professors, specialists, exhibitors and students from across the world to present their brilliance on a common platform. It is the prestigious moment  that International conference on  Aerodynamics, Fluid Dynamics and Aerospace Engineering  is going to be held on November 12-13, 2018 Melbourne, Australia.

The Organizing Committee is gearing up for an exciting and informative conference programme including plenary lectures, Symposia, Workshops on a variety of topics, Poster presentations and various programs for participants from all over the world. We invite you to join us at the Aerodynamics, Fluid Dynamics and Aerospace Engineering  2018, where you will be sure to have a meaningful experience with scholars from around the world.

Overall Analysis

The Aerodynamics ,Fluid Dynamics and aerospace industries are fastest growing industries in Asia Pacific region, with the Boeing  Market report  2013-2032, which shows massive demand for new planes in the AP region. The report forecasts that there will be a long-term demand for 35,280 new aeroplanes valued at US$4.8 trillion over the 2013-2032 period. The Asia Pacific region will have the greatest demand, with 12,820 new aeroplane deliveries expected over that period at a market value of US$1,890bn. Europe is next with an expected 7460 new planes (US$1020bn) followed by North America with 7250 new planes (US$810bn).

Boeing’s report also shows that revenue passenger kilometres (RPK – a measure of traffic based on the number of passengers by the distance travelled) are currently highest in Latin America at 6.9%, followed by the Asia Pacific region and the Middle East, (each recording 6.3%), with Europe and North America trailing at 4.2% and 2.7%.

Aviation/Aerospace Australia (A/AA) 75 corporate members include aerospace manufacturers and engineering businesses, state governments, airports, universities and other training organisations. It also has a Memorandum of Understanding (MOU) with several global air transport organisations that assist with connecting Australian companies to their international markets. As well as leading the aviation and aerospace segments of the Victorian Government Super Trade Missions to China, India and South East Asia, A/AA has hosted international guests from India, China, Indonesia, Poland and Vietnam.

 

The 2017 Global aerospace and defense outlook reviews the industry’s performance in 2016 and expectations for 2017. It outlines a long term projection for aircraft production, as well as an analysis of global defense spending on Aerodynamics sector. It also provides perspectives on defense contractor expectations, growth in travel demand driven by wealth creation in Asia and the Middle East, and observations on what travel demand means for the commercial aerospace sub-sector.

This year’s outlook finds global aerospace and defense (A&D) industry revenues expected to resume growth, driven by higher defense spending.

The global aerospace and defense industry is likely to experience stronger growth in 2017. Following multiple years of positive but a subdued rate of growth, the report forecasts the sector revenues will likely grow by about 2.0 percent in 2017.

The global A&D sector revenue rebound is attributed to a number of factors in both the commercial aerospace sub-sector and the defense sub-sector

Commercial aerospace sub-sector analysis

Stable global gross domestic product (GDP) growth, relatively lower commodity prices including crude oil, and strong passenger travel demand, especially in the Middle East and Asia Pacific regions, will likely drive the commercial aerospace sub-sector growth.

Despite an expected increase of 96 additional large commercial aircraft being produced in 2017, continued pricing pressure and product mix changes by airline operators will likely result in only a marginal increase of 0.3 percent in commercial aerospace sub-sector revenues.

The Global Computational fluid dynamics(CFD) market to grow at a CAGR of 11.10% over the period 2016-2021. The CAE market show an 11.1 percent compound annual growth rate (CAGR) for the next five years, amounting to a market value of $5,863.36 million by 2021. CFD finds wide applications in industries such as Automotive, Aerospace and Defence, Electrical and Electronics, and Energy. In the Aerospace and Defence industry, CFD is used to design fuel systems, engine core compartments, cockpit and cabin ventilation, missiles, and submarines, and also in aerodynamics design.

The global aircraft seating market is projected to grow from USD 8.74 Billion in 2016 to USD 16.94 Billion by 2021, at a CAGR of 14.15% during the forecast period. The global aircraft seating market  also covers competitive developments, such as long-term contracts, joint ventures, mergers, new product launches and developments, and research & development activities, in the global market.

The European aircraft type seating market, and is projected to grow at the highest CAGR of 13.1% from 2014 to 2019. The European aviation market is competitive with a large number of market players. As of 2014, the European seating market is majorly dominated by Sogerma S.A., B/E Aerospace, Zodiac Aerospace, and Recaro Aircraft Seating GmbH. The expansion of plant capacities, agreements, contracts, and joint ventures are the major strategies adopted by these major players to achieve growth in the European aircraft seating market.

The future of the global aerospace testing market looks promising with opportunities in the commercial aircraft, business jets, helicopters, and military aircraft. The global aerospace testing market is expected to reach an estimated $5.4 billion by 2023 with a CAGR of 2.1% from 2018 to 2023. The major growth drivers for this market are increasing aircraft deliveries, adoption of new materials in aircraft, and stringent aviation regulations & certification standards for the aircraft safety.Emerging trends, which have a direct impact on the dynamics of the global aerospace testing industry, include new advanced technologies for testing aircraft such as 3D scanning and magnetic optic imagers.

The key data show that Aerospace Engineering is one of the major branches of industry in the EU-27 with a share of around 9.1% of all manufacturing industries, as measured by production. The U.S. aerospace industry contributed $118.5 billion in export sales to the U.S. economy. The global commercial aerospace seating market is expected to grow at a CAGR of 5.2% over 2015-2020.

In 2012, the U.S. aerospace industry contributed $118.5 billion in export sales to the U.S. economy.  The industry’s positive trade balance of $70.5 billion is the largest trade surplus of any manufacturing industry and came from exporting 64.3 per cent of all aerospace production. Industry estimates indicate that the annual increase in the number of large commercial airplanes during the next 20 years will be 3.5 per cent per year for a total of 34,000 valued at $4.5 trillion (list prices).

Stable global gross domestic product (GDP) growth, relatively lower commodity prices including crude oil, strong passenger travel demand, especially in the Middle East and Asia Pacific region, will likely drive the commercial aerospace sub-sector growth. On the defence side, resurgence of global security threats, expected increases in US defence budgets, as well as higher defence spending from other major regional powers such as Japan and India will likely promote global defence subsector revenue growth in the near future.

Importance and Industrial scope

Fluid Dynamics and Aerodynamics plays the main role on the global market in Aerospace industry. It provides the employment for more than 500,000 people and generated a turnover of close to EUR 222 billion. The EU is the top place to manufacture civil aircraft, it includes helicopter, aircraft engines, parts and components of vehicle engines. The employment in the aerospace industry is major in the UK, France, Germany, Italy, Spain and Sweden. Due to high productivity and despite high employment costs, the sector is in profit. A huge amount is spent on R&D which results in R&D employment and will increase the patent applications.

 

Why  Australia?

Australian aerospace is an innovative sector that manufactures, engineers, designs and repairs components, parts and equipment for flying machines of all kinds, from commercial and defence aircraft, helicopters, to missiles and unmanned aerial vehicles. It contributes significantly to the Australian economy, with annuals revenue of $4bn, and it employs over 14,200 people in 892 businesses, according to IBISWorld’s December 2013 Aircraft Manufacturing and Repair Services in Australia market research report.

The report reveals that Australian parts are key features in both the Airbus A380 and the Boeing 787 Dreamliner. During 2013-14, IBISWorld predicts that the industry revenue is expected to increase 3.9% as domestic demand from the commercial sector recovers from recent turbulence caused by overseas manufacturing strikes and delays of new aircraft. The development of commercial aircraft and parts represents the industry’s largest product segment, accounting for 33% of industry revenue in 2013-14.

Air traffic in the Asia Pacific Region is growing rapidly, according to Aviation/Aerospace Australia (A/AA), the national association of aviation and aerospace industries. A/AA is also currently working together with Austrade on an aerospace manufacturing capability research project, which aims to develop an industry-wide database of Australian aerospace manufacturers. Around 200 aerospace manufacturers are currently being interviewed for the project.

A/AA is focused on promoting Australian innovation and expertise as well as building capacity and skills, with an emphasis on four industry-wide activity areas of: data, research, policy, and development – in both the domestic and international domains. “With the added air traffic and increased passenger numbers, there will be a massive need for more planes to be built and subsequently a greater demand for manufacturing of aircraft components and parts,” said Tamara Bell, A/AA Director of National/International Programs. “The Australian aerospace industry is very well positioned to supply the Asia Pacific region, with an industry which has high standards, is very advanced and innovative.”

Education platforms in Asia

Asian Countries has grown vastly in the field of aerospace engineering in recent years and many companies has setup the industries in Asia to increase the need in demand for Air Carriers. Asia has many Aerospace engineering universities and research centers making it accessible for both national and international students who wish to pursue studies in the field of Aerospace Engineering.

Target Audience

The conference discusses the latest research outcomes and technological innovations in the field of Aerodynamics, Scientists, Researchers, Industrialists, students related to the Aerodynamics and Exhibitors to exchange and share their views on critical aspects of Otolaryngology research. The event is organized to provide an exclusive platform for new researchers, scholars and educators to present and discuss the most recent innovations in the Aerodynamics and Aerospace industry.

The Top Universities in the World for Aerospace and Aerodynamics Engineering

  • Stanford University
  • Georgia Institute of Technology
  • Massachusetts Institute of Technology
  • California Institute of Technology
  • University of Michigan
  • University of Texas
  • Purdue University

 

The Top universities for Aerospace and Aerodynamics engineering in Australia:

 

The Top universities for Aerospace and Aerodynamics engineering in Asia:

  • Nanyang Technological University (NTU)
  • National University of Singapore (NUS)
  • The Hong Kong University of Science and Technology (HKUST)
  • KAIST - Korea Advanced Institute of Science and Technology
  • University of Hong Kong (HKU)
  • Tsinghua University
  • Fudan University
  • City University of Hong Kong
  • Peking University
  • The Chinese University of Hong Kong (CUHK)

 

The Top Universities in the Europe for Aerospace and Aerodynamics Engineering

  • Teesside University, Middlesbrough, UK
  • Politecnico di Milano, Italy
  • Aalto University, Finland
  • University of Pisa
  • Technical University of Berlin, Germany
  • Technical University of Munich, Germany

Top Aerospace companies and their revenue

  • Airbus $78.7 billion
  • Lockheed Martin $45.4 billion
  • United Technologies $33.1 billion
  • Northrop Grumman $4.7 billion
  • Raytheon $23.7 billion
  • General Electric $21.9 billion
  • Finmeccanica  $19.4 billion

 

Major Aerospace Associations around the World

  • Aerodynamic Testing Association
  • Aircraft Research Association
  • The Low Speed Aerodynamics
  • Research Association (LSARA)
  • European car aerodynamic research association
  • The Airship Association
  • American Physical Society
  • The Japan Society of Fluid Mechanics
  • National Society of Fluid Mechanics and Fluid Power IIT Bombay
  • The Airship Association

 

Major Aerospace Associations around the Europe

  • French Aerospace Industries Association, France
  • German Aerospace Industries Association, Germany
  • Italian Industries Federation for Aerospace Defense & Security, Italy
  • Defense and Security industries, UK
  • Association of Finnish Defense and Aeros
  • pace industries, Finland

 

Glance at Market and Funding for the new Research

The European Commission’s biggest ever investigate and advancement subsidizing program, with an add up to budget of over €70bn running from 2014 to 2020. It is organized around three columns: Amazing Science, Industrial leadership and Societal Challenges. Aviation is arranged inside the Societal Challenges column and falls inside the ‘Smart, Green and Integrated Transport’ region .

The European Countries point is to create (and additionally illustrate) get through innovations for the common AIRCA market to cut AIRCRA emission and noise and secure the future worldwide intensity of the European flying industry. European airspace and its air traffic management (ATM) started a commission and the funding program is overseen by the SESAR Joint Undertaking. European airspace and ATM methods will be moved forward by modernizing ATM through the definition, advancement, approval and sending of unused innovative and operational ATM arrangements and there is financing accessible to associations wishing to participate in this try.

Growth: Scope and Projection for next 5 years in the Aerospace Engineering and Aerospace Industry

One of the most challenging areas of engineering, Aerospace Engineering and the industries is to deal with the development of innovation in the field of aviation, defense and space systems. Aerospace Engineering involves design and manufacturing of hi-tech systems; hence the engineer requires possessing manual, technical and mechanical Skills. This space specializes in planning, development, advancement, testing and upkeep of commercial and military discuss carriers and spacecrafts. Aeronautical courses specialize in the development and plan of aircrafts, rockets and helicopters. Astronautical Designing incorporates space carriers, rockets and space stations.

 

The scope of the aeronautical engineering is increasing vastly and with the growth in population and there is a huge requirement of the aeronautical industry. The turnover revenue for the Aerospace industry in 2013 is 140 billion Euros and in 2015 is 222 billion Euros. Worldwide Aerospace and Defense (A&D) part incomes developed by 2.4 percent to US$674.4 billion out of 2016, somewhat over the estimated gross Domestic Product(GDP) development of 2.3 percent. The top 100 Aerospace organizations added revenue of US$15.7 billion in incomes, with development principally determined by the European business. The aerospace industry has a huge revenue growth.

The best aerospace companies are investing £20 million with alongside government in the skills that will take the sector to new heights It is estimated that in the next five years the development and innovation in the aerospace industry will be developed so vast and we can also see the further developments in the Aerospace industry. Six ventures will share £80 million for aviation research to offer assistance convey development and innovation in key ranges of technology. This financing comes from a £2 billion pot committed mutually by industry and government as portion of our industrial procedure, through the Aerospace Technology Institute (ATI).

 

 

 

Learn More

Aerospace Companies

Aerospace Companies Europe

Czech Aero holding Sport Prop Terma A/S Weibel Scientific Aircraft manufacturers of France‎ | Matra‎ | Safran Group‎ | Thales Group| Hoffmann Propeller | MT-Propeller Teldix | Diehl  Aerospace EuroJet Turbo      GmbH | Hoffmann Propeller | Kongsberg | Defence Systems | Industria Aeronautică Română | Romaero | Jat Tehnika Saab Group Swedish Space Corporation | OGMA – Indústria Aeronáutica de Portugal S.A Argotec | G.A.U.S.S. Srl (also known as GAUSS Srl) Telespazio SpaSpa

Aerospace Companies in USA

ARCA Space Corporation Earth Satellite Corporation (EarthSat) Deep Space Industries, or DSI | Nextant Aerospace |  NovaWurks | Tyvak Nano-Satellite Systems | Space Exploration Technologies Corp. (SpaceX) Millennium Engineering and Integration Co | Orbital ATK Ford Aerospace | Pioneer Aerospace Corporation | Air Launch | Align Aerospace | Armadillo Aerospace |  Astrobotic Technology | Loral Space & Communications Inc. | Ball Aerospace & Technologies Corp. Bendix Aviation | Esterline Technologies Corporation Digital Solid State Propulsion (DSSP) | Blue Origin | Bigelow Aerospace | Space Vector Corporation (SVC) | Stone Aerospace | Firefly Aerospace

Aerospace Companies in Asia/Pacific

Kawasaki Heavy Industries Aerospace Company  | Singapore Technologies Aerospace (ST Aerospace) SIA        Engineering Company | Bombardier Aerospace | Meggitt Aerospace | Standard Aero | Tigerfish Aviation | Israel  Aerospace Industries | Airobotics | Hindustan Aeronautics Ltd. (HAL)BrahMos Aerospace Private Ltd  | Beriev | OJSC Gazprom Space Systems Korea Aerospace Industries Ltd Aerospace Industrial Development Corporation (AIDC) | Pacific Aerospace | Dubai Aerospace Enterprise (DAE) Ltd | Thai Aviation  Industries (TAI) | Asian aerospace | DAURIA Aerospace.| SPUTNIX Ltd.| Gazprom Space Systems | Eurockot Launch Services COSMOS International | Lavochkin Association |

 

Related Journals

International Journal of Aerospace Engineering International Review of Aerospace Engineering | Progress in Aerospace Sciences | AIAA Journal | IEEE Transactions on Aerospace and Electronic Systems | Aerospace Science and Technology | Acta Astronautica | Chinese Journal of Aeronautics | Journal of Propulsion and Power | Advances in Space Research | Journal of Aircraft | Journal of Spacecraft and Rockets | IEEE Aerospace and Electronic Systems Magazine | CEAS Space Journal | Journal of Aerospace Information Systems | CEAS Aeronautical Journal | International Journal of Computational Fluid Dynamics | International Journal of Computer Integrated Manufacturing | International Journal of Engine Research | Transactions of the Japan Society for Aeronautical and Space Sciences | International Journal of Aeronautical and Space Sciences | Canadian Aeronautics and Space Journal | Journal of Aerospace Engineering

 

Aerospace Jobs

Aerospace Jobs in USA

Engineering designer Flight Operations mechanic | Aerodynamics Engineer | Manufacturing Engineer Technical support EngineerFlight Technician | Quality engineer | Aerospace Engineer | Electronics Engineer Research Physical Scientist Mechanical, Gas and Fluid system engineer Vaccum test engineer Environmental Engineer |  Electrical Controls Engineer/Chassis Control Systems Engineer |  Automotive Charging/Discharging & Systems Engineer | Hardware test Engineer | Electrical Control Engineer | Heavy Equipment Mechanic | Software Integration Engineer | Flight control systems engineer | Space Vehicle Software Test and Verification and Systems Engineer | Systems engineer Associate | Field Supports Engineer | Instructor Flights Engineer | Flight Controls and Avionics Systems Engineer | Embedded Software Engineer |

Aerospace Jobs in Europe

Weapons Systems Engineer Flight Inspection Manager | Maintenance Control Engineer | Aircraft Maintenance Planning EngineerAerospace Manufacturing Engineer | Design Engineer | Senior Electrical & Avionics Design Engineer | Avionics Support EngineerSenior Airspace Systems Engineer |  Estimator |  Vibro acoustic Engineer | Senior Systems Engineer | Project Manager Design Systems | Senior Design Engineer - Body PanelsMechanical Design Engineer | Structure and Propulsion Stress Engineer | Manufacturing Engineer | Procurement Engineer |Quality and Certification Engineer | Engineering Supervisor-Avionics | Production Plant  Engineer |  Electronics Systems Engineer | Chief Engineer - Low Power Electronics, Acoustic Engineer |  Senior Geotechnical Engineer Calibration Engineers  |  Lead Engineer – InteriorOBD Development Engineer |  Project Engineer - Electrical Systems Integration Customer Technical Development (CTD) Engineer - Aerospace Market Segments EMEATeam Leader Mechanic Production Engineering (Series Support).

Aerospace Jobs in Asia and Middle East

Aircraft Technician | Manufacturing Specialist | Design and Development Engineer Instructional Designer Fabrication & Production Manager |  ME & Production Planner |  Procurement ExecutiveFabrication Technician | Assistant SCM Principal Engineer |  Logistics Officer |  Project Manager |  Workshop Controller  Engineering Asst | Technician | Engineering AsstProcess Engineer |  Manager – Automation | Fleet Operations Manager | ATC Technician | Production Technician | Senior / Parts Executive | Manufacturing Workshop Executive

 

Aerospace Products

Civil aircraft General aviation aircraft | Commercial heavy aircraft | Military aircraft | Helicopters | Unmanned aerial vehicles | Missiles | Space launchers | Spacecraft | Airships | Propulsion systems | Avionics | Tertiary systems | Simulation devices | Artificial satellites Solar panels Aircraft ground supporting equipments | Jigs | Aero structures Jet engines

 

To Collaborate Scientific Professionals around the World

Conference Date November 12-13, 2018

Speaker Opportunity

Supported By

Journal of Aeronautics & Aerospace Engineering Journal of Applied Mechanical Engineering Journal of Astrophysics & Aerospace Technology

All accepted abstracts will be published in respective Conference Series LLC LTD International Journals.

Abstracts will be provided with Digital Object Identifier by


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