Design Optimization of Heat Exchangers for Aero Engines With the Use of a Surrogate Model Incorporating Performance Characteristics and Geometrical Constraints

Volume 5C: Heat Transfer Pub Date : 2018-06-11 DOI:10.1115/GT2018-76097

C. Salpingidou, D. Misirlis, Z. Vlahostergios, M. Flouros, F. Donus, K. Yakinthos

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Abstract

The present work is focused on the optimization of the performance characteristics of a recuperator specifically designed for aero engine applications, targeting the reduction of specific fuel consumption and taking into consideration aero engine geometrical constraints and limitations. The recuperator design was based on the elliptically profiled tubular heat exchanger which was developed and invented by MTU Aero Engines AG. For the specific fuel consumption investigations the Intercooled Recuperated Aero engine cycle, combining both intercooling and recuperation, was considered. The optimization was performed with the development of a recuperator surrogate model, capable to incorporate major recuperator geometrical features. A large number of recuperator design scenarios was assessed, in which additional design criteria and constraints were applied. Thus, a significantly large recuperator design space was covered resulting to the identification of feasible recuperator designs providing beneficial effect on the Intercooled Recuperated Aero engine leading to reduced specific fuel consumption and weight.

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基于性能特征和几何约束的替代模型的航空发动机换热器优化设计

本文主要针对航空发动机专用回热器的性能特点进行了优化设计，以降低比油耗为目标，并考虑了航空发动机的几何约束和局限性。蓄热器的设计基于MTU航空发动机公司开发发明的椭圆管式换热器。在具体的燃油消耗研究中，考虑了中冷和回热相结合的中冷回热航空发动机循环。通过开发能够包含主要回热器几何特征的回热器代理模型，进行了优化。对大量的回热器设计方案进行了评估，其中应用了额外的设计标准和约束。因此，研究涵盖了相当大的回热器设计空间，从而确定了可行的回热器设计，为中冷回热航空发动机提供了有利的影响，从而降低了比油耗和重量。

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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Volume 5C: Heat Transfer

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