CUED Publications database

The influence of turbine stator well coolant flow rate and passage configuration on cooling effectiveness

Coren, DD and Atkins, NR and Long, CA and Eastwood, D and Childs, PRN and Guijarro-Valencia, A and Dixon, JA (2011) The influence of turbine stator well coolant flow rate and passage configuration on cooling effectiveness. Proceedings of the ASME Turbo Expo, 5. pp. 981-992.

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Market competitiveness for aero engine power plant dictates that improvements in engine performance and reliability are guaranteed a priori by manufacturers. The requirement to accurately predict the life of engine components makes exacting demands of the internal air system, which must provide effective cooling over the engine duty cycle with the minimum consumption of compressor section air. Tests have been conducted at the University of Sussex using a turbine test facility which comprises a two stage turbine with an individual stage pressure ratio of 1.7:1. Main annulus air is supplied by an adapted Rolls-Royce Dart compressor at up to 440 K and 4.8 kg s -1 . Cooling flow rates ranging from 0.71 to 1.46 C w, ent , a disc entrainment parameter, have been used to allow ingress or egress dominated stator well flow conditions. The mechanical design of the test section allows internal cooling geometry to be rapidly re-configured, allowing the effect of jet momentum and coolant trajectory to be investigated. An important facet to this investigation is the use of CFD to model and analyse the flow structures associated with the cavity conditions tested, as well as to inform the design of cooling path geometry. This paper reports on the effectiveness of stator well coolant flow rate and delivery configurations using experimental data and also CFD analysis to better quantify the effect of stator well flow distribution on component temperatures. Copyright © 2011 by Rolls-Royce plc.

Item Type: Article
Divisions: Div A > Turbomachinery
Depositing User: Cron Job
Date Deposited: 17 Jul 2017 19:35
Last Modified: 03 Aug 2017 03:08