Projects

There are 11 results.

open4aviation

Aviation Icing Tests IV - Cloud Generation for Realistic Icing Tests on Aircraft Components, With and Without De-Icing or Anti-Icing Facilities

this research project will examine consequent research topics with a focus on increasing the LWC (Liquid Water Content) for Appendix C as well as the distribution and reduction of the LWC for Supercooled Large Drops (SLD). It is building on research projects Aviation Icing Tests, Aviation Icing Tests II and Aviation Icing Tests III that have already been carried out.

open4aviation

DJET - D-JET Concept

The goal of the D-Jet project is to construct a small jet for an emerging market segment with a significantly lower price-performance ratio than earlier business jets, better performance with regard to the cruising speed and the rate of climb, short runway requirements for takeoff and landing, as well as a total registered weight under 2,000 kilograms.

open4aviation

Evolution#4 - Development of a fully automated airplane manufacturing technology and implementation of IoT

In Evolution#4 an approach for the 4th industrial revolution will be addressed by bringing the production of aeronautical structures to a fully automated RTM process. In an holistic approach with leading specialists from Airbus the Austrian consortium will develop intelligent, sensor-based and quality driven production technology and prepare for coming project on the example of the A320 vertical tail plane.

open4aviation

FSA - Future Small Aircraft

The aim of this funded project is to launch a modern and highly efficient "Future Small Aircraft" in the general aviation category, which will reduce operating costs to a minimum and thus meet the growing demand. The end result of this project is a certifiable prototype, which will be developed in a timeframe of around 32 months.

open4aviation

HEMEP - Hybrid Electric Multi Engine Plane

The consortium partners in the HEMEP project aim to play a pioneering role in the field of aviation in electric propulsion systems, and thus enable the participating companies to become technology leaders for the future. The multi-engine aircraft with a hybrid electric propulsion system project will serve to further develop the basics of calculation methods in different areas for electric flying.

open4aviation

ICE GENESIS - Creating the Next Generation of 3D Simulation Means for Icing

The top level objective of the ICE GENESIS project is to provide the European aeronautical industry with a validated new generation of 3D icing engineering tools (numerical simulation and test capabilities), addressing App C, O and snow conditions, for safe, efficient and cost effective design and certification of future aircraft and rotorcraft.

open4aviation

IceDrip - Aircraft Anti-icing and De-icing through Assemblies of Conducting Varnish and Functional Coatings

In the project IceDrip the rather promising concept of a discontinuous, electro-thermal de-icer is being investigated. The main aim of the present project is to significantly increase the already existing energetic advantages of the discontinuous de-icer by means of surface-active coatings, in order to achieve a performance range which would make the system suitable for general aviation aircraft, as well as smaller aircraft, which are equipped as large aircraft.

open4aviation

I³PS - Integration of Innovative Ice Protection Systems

The project goal is to economically remove ice accreting on aircraft structure critical parts and thus increase reliability and mass saving on the global function. By comparison with the present existing solutions which are based on active pneumatic and electro-thermal means the targeted solutions will enable electrical power consumption, cost and mass reductions and ease the overall integration process.

open4aviation

TWID - Heating-Paint Sensor Based Wing Ice Detector

In the scope of the TWID project, a method for reliable detection of ice on wing surfaces and other relevant structures on an aircraft is to be developed, examined and validated in the course of various tests on the small-scale and full-scale models in the icing wind tunnel. Ice detection combined with the de-icing method, which is already in development, results in a completely self-sufficient de-icing system, which independently identifies and reliably removes ice on the wings.

open4aviation

eSAFE - Emergency Safe Return for CS23 Aircraft

The aim of the project is the development of an automatic emergency flight guidance, including emergency landing for the EASA CS23 category aircraft. In case of sudden in-flight pilot incapacitation or technical problems, after activating the emergency button on board, an airfield with an approach route taking into account dynamic air traffic and weather data should be determined.

open4aviation

eWING_DE-ICER - Development of an Energy-Efficient Electrothermal De-icing System for Wing Leading Edges in Aviation

Within the scope of the eWING_DE-ICER project, a method for developing energy-optimised de-icing systems for wing leading edges, based on a thermoelectric heating system, is to be developed. In addition to the development of forecasting models for the optimal design of all components involved, different prototypes are to be set up as in the model, as well as in full-scale, and tested in various icing wind tunnels.