Aerodynamic improvement of high speed race vehicles is currently one of the vital aspects of performance gain, and probably the most cost-efficient too.

Developments in the wind-tunnel, on the race track and by CFD simulations can be used for optimizing the vehicle’s aerodynamic design and setup for beating the previous best elapsed time on a drag strip or around a particular race track. Moreover, the design and development of race cars is controlled by regulations, which need to be well interpreted for determining the maximized potential.

Consequently, teams could spend considerable amounts of money and time in this sector each year, since there is always potential for further development, which are probably more  robust and durable compared to other aspects of race vehicle development.

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Acquiring new knowledge is a fundament on which you can build your further learning which enhances your problem solving and reasoning on challenges from many perspectives. Skills (the application of knowledge) allows you to succeed by putting what you know into action. Basically, if you learn you will achieve. If you set your sights high when establishing your goals and objectives, and work hard to equip yourself with the knowledge to accomplish your goals, great things will happen.

Combining your gained knowledge with our mentorship will provide guidance, advice, and support to you as you navigate your career in an efficient way.

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Air resistance has a significant effect on fuel consumption and hence the emission of vehicles. With stricter regulations and tax rates being introduced every year on CO2 emissions and fuel consumption, the automotive industry must continue to strive towards more energy efficient vehicles that do not compromise their performance in order to fulfill legal demands and stay competitive.

For electric vehicles, emissions are not affected by the air resistance as such, but instead have a significant effect on the effective range of the vehicle. However, the electric energy used for propulsion will indirectly impact the environment if it is not generated by sustainable energy systems. It is therefore vital to ensure that the energy efficiency of the vehicle is high, regardless of the propulsion system.

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The lectures enable larger groups of individuals to improve their level of awareness and understanding of a specific subject by engaging with key considerations with industry experts from the field of vehicle aerodynamics. Discussing about the relevant topics of the particular subject, you will learn about the latest knowledge and new skills related to the concerned subject, where opinions and thoughts are shared informally.

The lectures often have positive effects on different individuals, including networking opportunities, increasing the motivation to pursue a future career in the area of expertise.

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No matter if you would like to get inspired by increasing your awareness within vehicle aerodynamics, or gain comprehensive knowledge and skills for your own development purposes and goals, or even get expert support to maximize your performance and efficiency, we are the professional service provider for your needs! 

Learn more about our flexible service offers. Get inspired, become more knowledgeable, or why not let us unlock your vehicle’s true potential in terms of performance and efficiency.





" Mattias successfully devised aerodynamic equality on car body designs per new TTA/STCC regulations and enhanced airflow through sidepod cooling ducts. "

J Å Stigborg Former Technical Manager, Touring Car Team Association / Scandinavian Touring Car Championships

“ A very exciting and engaging lecture where the aerodynamics development of high-performance cars is the focus. The students really loved it! ”

- Full Professor S. Sebben Head of Division VEAS, Chalmers University of Technology

" A captivating lecture on car aerodynamics, inspiring students to engage and ask thoughtful questions. Truly impactful! "

- Full Professor A. Talamelli Lecturer in Vehicle Aerodynamics at Mechanics, Royal Institute of Technology

" Very inspiring lecture about an interesting topic. Mattias really engages the students in his lecture, and the students really appreciated it! "

- Senior Lecturer J. Sundström Lecturer in Aerodynamics at Fluid and Experimental Mechanics, Luleå University of Technology

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Are you in need of personalized support, but feel getting the right help can be a daunting task? As a professional service provider, we may provide more comprehensive support than other options, whether it be solutions to a particular issue, general advice or trainings to improve your vehicle’s performance or your own knowledge. With the right resources, you can get the assistance to resolve your needs.

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Frequently Asked Questions (FAQ)

Aerodynamics (from Greek ἀήρ aer (air) + δυναμική (dynamics)) is the study of motion of air and particularly the interaction with a solid object, such as a vehicle.

Aerodynamics affects vehicles in a complete way; three axes, referred to as longitudinal (X), lateral (Y) and vertical (Z), are each perpendicular to the others and intersect at the vehicle centre of gravity. Forces acting along the longitudinal axis, the lateral axis and the vertical axis are referred to as drag, side and lift force respectively. Furthermore, rotational forces, or moments around the longitudinal axis, the lateral axis and the vertical axis are referred to as roll, pitch and yaw moment respectively. Aerodynamics will also affect cooling performance and other flow-induced disciplines such as soiling and wind noise.

We would be more than happy to make you more knowledgeable about your complete vehicle apprehension!

The answer to that question is really two counter questions “How does your vehicle perform today?” and “How would you like it to perform?”. In other words, what the current performance or efficiency is of the vehicle, will state the status from which improvements could be developed. However, improvements would not be useful, unless one knows what expected performance or efficiency to aim for.

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To put it simply, no. General automotive aerodynamics is three-dimensional, time-varying and strongly non-linear physics. The flow field around a car is not only dependent on upstream conditions, but also downstream conditions. Changing the surrounding conditions for an aerodynamic solution, will result in different potentials. Basically, what works on one type of car, may not be as efficient on another.

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