Exploration of Shock-Droplet Ignition and Combustion

AIAA SCITECH 2023 Forum Pub Date : 2023-01-19 DOI:10.2514/6.2023-0560

J. Patten, V. Malik, S. Salauddin, K. Ahmed

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Abstract

Liquid fuels are desirable in aerospace applications due to their higher energy density when compared to gaseous fuels. With the advent of detonation-based engines, it is necessary to characterize and analyze how liquid fuel interacts with detonation waves as well as shocks to ignite. While liquid fuel sprays have been proven to successfully aid and sustain detonations, the physical mechanism by which the individual liquid droplets accomplish this is yet to be understood. Such knowledge allows for more predictable detonation properties, which in turn can let detonation-based engines be sustained more easily. This research seeks to quantify and characterize interactions of liquid fuels with detonations and shocks, analyzing the breakup mechanism as well as the ignition of select fuels. Such effects will be characterized for several different mixture compositions as well as shock and detonation speeds. Primary analysis techniques include shadowgraph, Schlieren, and chemiluminescence imaging. Data on pressure will also be taken with pressure transducers to confirm shock and detonation properties. This research will further the progress of liquid fuel detonation-based engines by enabling more predictable and sustainable detonations.

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冲击液滴点火与燃烧的探索

与气体燃料相比，液体燃料具有更高的能量密度，因此在航空航天应用中是理想的。随着基于爆震的发动机的出现，有必要对液体燃料如何与爆震波和冲击相互作用来点燃进行表征和分析。虽然液体燃料喷雾已被证明能够成功地帮助和维持爆炸，但单个液滴实现这一目标的物理机制尚不清楚。这样的知识可以使爆震特性更加可预测，从而使基于爆震的发动机更容易维持。本研究旨在量化和表征液体燃料与爆炸和冲击的相互作用，分析分离机制以及选定燃料的点火。这种效应将在几种不同的混合成分以及激波和爆轰速度下进行表征。主要的分析技术包括影影、纹影和化学发光成像。压力数据也将与压力传感器一起采集，以确认冲击和爆炸特性。这项研究将通过实现更可预测和可持续的爆轰，进一步推动液体燃料爆轰发动机的发展。

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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AIAA SCITECH 2023 Forum

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