AOrbitProject ID: 738176
Orbiting Journal Bearing Experiment
Total cost:EUR 1 099 841,25
EU contribution:EUR 1 099 841,25
Coordinated in:United Kingdom
Call for proposal:H2020-CS2-CFP03-2016-01See other projects for this call
Funding scheme:CS2-IA - Innovation action
This proposal addresses call JTI-CS2_2016-CFP03-ENG-03-09 entitled “Orbiting Journal Bearing Rig Test”. We show that all requirements identified in the call can be met within the timescale and budget allocated for this call. Indeed, the approach taken to the research goes beyond what is specified in the call document in several important ways. In this section, we describe why this research work is of critical importance to Europe and ultimately to the world more broadly.
The objectives of this project correspond exactly to those stated in the call for proposals. Overall, the call requires that the project will design, build and operate a testrig for journal bearings and process the data obtained to provide the most useful information possible to support the development of suitable bearing systems for high-performance, high-reliability and low-weight speed reduction gearboxes for ultra-high bypass ratio aero-engines of the future. Our overarching aim is to meet this requirement and additionally to propose engineering refinements where appropriate to enhance the development of such journal bearings for the context in light of lessons emerging from the experimentation.
AOrbit will deliver a facility for the operation of a journal bearing in conditions which are representative of a Power Gear Box (PGB) in a future large civil geared turbofan aeroengine.
Work will be managed by the Institute for Aerospace Technology Core Team, which oversees the University’s Aerospace portfolio of live research, innovation and technology demonstration projects worth over €70m in collaboration with leading companies such as Airbus, Rolls-Royce, Liebherr, Dassault Aviation, Meggitt and Safran. The team has a dedicated EU management function that administers over €20m of Clean Sky projects including the University’s involvement as Associate Partner in Clean Sky and as Core Partner in Systems and Airframe ITD in Clean Sky2 as well as FP7 and Horizon2020 projects related to aerospace.
EU contribution: EUR 1 099 841,25
NG7 2RD NOTTINGHAM