Description: Das Projekt "Main Annulus Gas Path Interactions (MAGPI)" wird vom Umweltbundesamt gefördert und von Rolls-Royce Deutschland Ltd & Co KG durchgeführt. In a modern aero engine, up to 20Prozent of the main annulus flow is bled off to perform cooling and sealing functions. The vicinity of these bleed ports and flow sinks is characterised by complex unsteady swirling flows, which are not fully understood. Even the most up-to-date numerical tools have difficulties predicting the behaviour of the secondary flow system when interacting with the main annulus. The project addresses interactions between main gas path and secondary flow systems in commercial gas turbines in response to Research Activity AERO-2005-1.3.1.2a Concepts and technologies for improving engine thermal efficiency and reducing secondary air losses. Experiments are planned on turbine disc rim and compressor manifold cavity heat transfer, hot gas ingestion, and spoiling effects of cooling air flow and their impact on turbine and compressor performance, as well as a reduction of secondary air losses. The experimental data will be used for better understanding of the complex flow phenomena and improvements of platform and cavity design. Furthermore, the industrial partners will validate their design tools with these test data and improve their prediction capability of secondary flow systems when interacting with the main gas path. The expected results are a reduction of cooling and sealing airflow rates, improvements of the turbine and compressor efficiency and increase of the safety margin of the engine components by better cooling. Expected technical results are: - Knowledge of the interaction phenomena and its effect on cavity heat transfer, spoiling and performance, - Experimental results for validation of improved numerical tools for secondary flow systems, - Optimised design methods and CFD best practice guidelines. The targeted outcome will contribute to the ACARE goal of reduced CO2 emissions via reduced fuel burn of 2Prozent to improve the environment and strengthening the competitiveness of European gas turbine manufacturers.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Brennstoff ? CO2-Emission ? Luftkühlung ? Ingestion ? Main ? Elektronik ? Technologietransfer ? Brunnen ? Gasturbine ? Wärmeeffizienz ? Brand ? Datierung ? Kreiselpumpe ? Leitfaden ? Schadensminderung ? Telekommunikation ? Verbrennung ? Prognose ? Wirkung ? Hafen ? Luft ? Gasförmiger Stoff ? Bewertung ? Daten ? Informationssystem ? Innovation ? Kühlung ? Mikroelektronik ? Politik ? Technik ? Wettbewerbsfähigkeit ? Höhle ? Schaden ? Wirkung ? Sicherheitsabstand ? Norm ? Soziale Aspekte ? Heizung ? Richtlinie ? Sicherheit ? Umwelt ? Wirtschaftliche Aspekte ? Abdichtung ? Planung ? Maschine ? Effizienzsteigerung ? Forschung ? Wechselwirkung ? Aerospace Technology ? PROJEKT ? VERRINGERUNG ? EXPERIMENT ? VERSCHIEBUNG ? RATIFIKATION ? Verdichter ? INDUSTRIELL ? Werkzeug ? INSTATIONAER ? RAUM ? Turbomaschine ? ERGEBNIS ? UNTERSUCHUNG ? Information Processing ? FP6-AEROSPACE ? BESTANDTEIL ? Fluss [Bewegung] ? BEWERTEN ? LEISTUNGSFAEHIGKEIT ? METHODE ? Bahnsteig ? GEPLANT ? VERANTWORTUNG ? BEST ? PFAD ? VERHALTEN ?
Region: Brandenburg
Bounding box: 13.01582° .. 13.01582° x 52.45905° .. 52.45905°
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2006-09-01 - 2011-08-31
Accessed 1 times.