Abstract
Abstract A good aerodynamic design of the turbine rear structure (TRS) is crucial for improving efficiency and reducing emissions from aero-engines. This paper presents a detailed experimental evaluation of an engine realistic TRS which was studied in an engine-realistic rig at Chalmers University of Technology, Sweden. The TRS test section was equipped with three types of outlet guide vanes (OGVs) which are typical of modern state-of-the-art TRS: regular vanes, thickened vanes and vanes with an engine mount recess (a shroud bump). Each of the three vane geometries were studied under on-design and off-design conditions at a fixed flow Reynolds number of 235,000. The study shows that the off-design performance of the TRS strongly depends on the presence of the local flow separation on the OGV suction side near the hub, which is greatly affected by the vane pressure distribution and inlet conditions. Similarly, the OGVs with increased thickness and with a vane shroud bump are shown to affect the performance of the TRS by influencing the losses on the OGV suction side near the hub. Furthermore, the presence of the bump is shown to have noticeable upstream influence on the outlet flow from the low-pressure turbine and noticeable downstream influence on the outlet flow from the TRS.
Highlights
Near-future demands for the reduced environmental impact of air transport has stimulated the innovation and improvement of the air engine design
The turbine rear structure (TRS) consists of outlet guide vanes (OGVs) and a modern TRS includes several vane types: regular vanes, vanes equipped with an engine-mount recess, which serve a structural purpose, and vanes with increased thickness to allow for the passage of the bearing oil tubes
At minimal OGV load the near-wall streamlines are smooth without any indication of flow separation
Summary
Near-future demands for the reduced environmental impact of air transport has stimulated the innovation and improvement of the air engine design. The aerospace industry needs to meet the goals set by the Advisory Council for Aeronautics Research in Europe for the year 2050, where the main targets are a 75% reduction in CO2 emissions, a 90% reduction in NOx emissions, and a 65% reduction of the perceived noise relative to engine and aircraft performance compared to values of the year 2000. In line with these requirements, increased bypass ratio (BPR) turbofan engines with ultra-high efficiency are currently under development. The TRS consists of outlet guide vanes (OGVs) and a modern TRS includes several vane types: regular vanes, vanes equipped with an engine-mount recess (shroud bump), which serve a structural purpose, and vanes with increased thickness to allow for the passage of the bearing oil tubes
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