A COMMERCIAL TURBOFAN ENGINE MODELING AND EXERGY ANALYSIS

Konya Journal of Engineering Sciences Pub Date : 2024-01-08 DOI:10.36306/konjes.1332160

O. Kalkan

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Abstract

Turbofan engines are one of the most common types of engines used in modern commercial and military aircraft due to their efficiency and performance characteristics. In this study, a thermodynamic model is generated using GasTurb 14 software for a commercial two-spool, unmixed flow, and booster turbofan engine (CFM56-5A3) used in Boeing A320-212. Besides, an exergy analysis of the modeled turbofan engine is performed. Exergy performance criteria such as exergy efficiency, exergy development potential, exergy destruction ratio, productivity lack ratio, and fuel depletion ratio are evaluated for the engine components. In addition, how bypass ratio (BPR) affects net thrust and specific fuel consumption (SFC) for the modeled turbofan engine is investigated. As a result, the net thrust and SFC values of the modeled engine and the actual engine are overlapped with 14.0% and 7.2% deviation, respectively. The maximum exergy efficiency occurs at the high-pressure turbine as 0.992. When the bypass ratio is minimum, the maximum net thrust and SFC occur as 62.24 kN and 24.08 g kN-1 s-1, respectively. High pressure turbine has the minimum exergy development potential of 1528.5 kW.

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商用涡扇发动机建模和能耗分析

涡轮风扇发动机因其效率和性能特点而成为现代商用和军用飞机最常用的发动机类型之一。在本研究中，使用 GasTurb 14 软件为波音 A320-212 飞机上使用的商用双涡轮、非混流和增压涡扇发动机（CFM56-5A3）生成了热力学模型。此外，还对模型涡扇发动机进行了能耗分析。对发动机部件的放能效率、放能发展潜力、放能破坏率、生产率缺乏率和燃料损耗率等放能性能标准进行了评估。此外，还研究了旁路比（BPR）如何影响模型涡扇发动机的净推力和比油耗（SFC）。结果发现，模型发动机的净推力和 SFC 值与实际发动机重合，偏差分别为 14.0% 和 7.2%。最大放能效率出现在高压涡轮处，为 0.992。当旁通比最小时，最大净推力和 SFC 分别为 62.24 kN 和 24.08 g kN-1 s-1。高压涡轮的最小放热潜能为 1528.5 kW。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Konya Journal of Engineering Sciences

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