考虑到航空业的不同需求,不同设计条件下涡轮风扇发动机的热力学、环境和可持续性影响

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Hakan Aygun, Mohammad Rauf Sheikhi, Hakan Caliskan
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引用次数: 0

摘要

本研究对以煤油为燃料的高旁通涡轮风扇(HBP-TF)发动机进行了热力学分析,以评估不同设计变量(如高压压气机压力比(HPC-PR)从 7.5 到 8.5 不等、涡轮进口温度(TIT)从 1400 到 1525 K 不等)下的熵、放能、环境和可持续性指标,并考虑到航空业的不同需求。作为一项创新,计算了涡轮机械部件的熵改进潜力(EIP)指数和整个发动机的特定不可逆生产率。将不同情况下基于可持续性的参数与 HBP-TF 发动机的基准值进行了比较。在基准值下,燃烧器的熵产生量最高,为 44.4425 kW K-1。较高的 TIT 会使燃烧器的熵增量增加 16.56%,而较高的 HPC-PR 则会使熵增量减少 5.83%。较高的 TIT 和 HPC-PR 会对发动机的可持续效率系数产生有利影响,基线值为 1.5482,随着 TIT 和 HPC-PR 的增加,可持续效率系数分别增加了 4.5% 和 0.058%。较高的 TIT 和较高的 HPC-PR 会降低发动机的可持续性。当 TIT 和 HPC-PR 达到研究中考虑的最高点时,发动机的特定不可逆产量分别降低了 3.78% 和 0.1171%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Thermodynamics, Environmental and Sustainability Impacts of a Turbofan Engine Under Different Design Conditions Considering Variable Needs in the Aviation Industry

Thermodynamics, Environmental and Sustainability Impacts of a Turbofan Engine Under Different Design Conditions Considering Variable Needs in the Aviation Industry

Thermodynamics, Environmental and Sustainability Impacts of a Turbofan Engine Under Different Design Conditions Considering Variable Needs in the Aviation Industry

In this study, thermodynamic analysis is implemented to the kerosene-fuelled high by-pass turbofan (HBP-TF) engine to assess entropy, exergy, environmental, and sustainability metrics for different design variables such as pressure ratio of high-pressure compressor (HPC-PR) ranging from 7.5 to 8.5 and turbine inlet temperature (TIT) varying from 1400 to 1525 K considering variable needs in the aviation industry. As a novelty, entropic improvement potential (EIP) index for turbomachinery components and specific irreversibility production for the whole engine are calculated. Sustainability-based parameters for different cases are compared with the baseline values of the HBP-TF engine. The combustor has the highest entropy production of 44.4425 kW K−1 at the baseline. The higher TIT increases the entropy production of the combustor by 16.56%, whereas the higher HPC-PR decreases it by 5.83%. The higher TIT and HPC-PR favorably affect the sustainable efficiency factor of the engine, which is observed as 1.5482 at baseline and increases by 4.5% and 0.058% with the increment of TIT and HPC-PR, respectively. The higher TIT and higher HPC-PR results in lowering sustainability of the engine. The specific irreversibility production of the engine decreases by 3.78% and 0.1171% respectively, as TIT and HPC-PR reach the highest point considered in the study.

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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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