Numerical Study on Exhaust Ejection and Nacelle Cooling of Turboprop Engine
A simulation physical model was constructed for the integrated engine nacelle of a turboprop aircraft,focusing on the exhaust system/short nacelle.The model incorporated the wing,fuselage,and pro-peller components.The slipstream of the propeller was simulated using the multiple reference frames(MRF)method,and the flow and heat transfer characteristics inside the engine nacelle were investigated for different exhaust pipe lengths.The results show that:within the scope of the parameters studied in this article.As the length of the mixing tube segment increases from 28 mm to 196 mm.Under the condition of no slipstream,the injection flow rate of the annular seam at the middle of exhaust nozzle increases by 18.3%,and the injection flow rate of the annular seam at the end of exhaust nozzle increases by 0.27 kg/s.Under the condition of slipstream,the injection flow rate of the middle annular seam remains around 0.174 kg/s,while the injection flow rate of the end annular seam increases by 35.8%.The change in length of the mixed pipe section has a significant impact on the injection of the end annular seam.The exhaust nozzle outer wall temperature distribution is asymmetric.The average temperature de-creases by 15 K,4%.The mixing tube is slightly increased in wall temperature due to the influence of the outlet reflux zone and high-temperature exhaust gas.
万方数据
维普
