Compact Heat Exchangers with Curved Fins for Hydrogen Turbofan Intercooling

Journal of Engineering for Gas Turbines and Power Pub Date : 2024-07-03 DOI:10.1115/1.4065887

Alexandre Capitao Patrao, Isak Jonsson, C. Xisto

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Abstract

Hydrogen is being considered as a possible path towards carbon-neutral aviation. There are additional advantages besides its main benefit of CO2-free combustion. One application is to use it for aero engine heat management due to its cryogenic temperature and high heat capacity, including intercooling and exhaust heat recuperation. The focus of this paper is on the design of a compact heat exchanger integrated into an intermediate compressor duct (ICD), which could decrease compression work and specific fuel consumption (SFC). This compact heat exchanger features curved fins to promote flow turning and decrease pressure losses compared to more conventional straight fin heat exchangers. Conceptual design and duct shape optimization has been carried out which produced integrated ICD heat exchanger designs with significantly lower air-side total pressure losses compared to their conventional straight fin counterparts, which could improve system level integration and engine performance. A direct outcome of this study is a pressure loss correlation which can be used in future engine system level trade studies.

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用于氢气涡扇中冷的带弧形鳍片的紧凑型热交换器

氢气被认为是实现碳中和航空的可能途径。除了无二氧化碳燃烧这一主要优点外，氢气还有其他优势。其中一个应用是将氢用于航空发动机热管理，因为氢具有低温和高热容量的特性，包括中冷和废热回收。本文的重点是设计一种集成到中间压气机管道（ICD）中的紧凑型热交换器，它可以减少压缩功和比油耗（SFC）。与传统的直翅片热交换器相比，这种紧凑型热交换器采用弧形翅片，可促进气流转向，减少压力损失。通过概念设计和管道形状优化，集成式 ICD 热交换器设计的空气侧总压力损失明显低于传统的直翅片热交换器，从而提高了系统集成水平和发动机性能。这项研究的直接成果是压力损失相关性，可用于未来的发动机系统级贸易研究。

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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Journal of Engineering for Gas Turbines and Power

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