Mixing and Combustion Improvement Using Jet Injection Into Swirling Flowfields

Energy Conversion Pub Date : 2002-01-01 DOI:10.1115/IMECE2002-39600

D. Lilley

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引用次数: 1

Abstract

The aerodynamics benefits of lateral jet injection into swirling crossflow have long been recognized and used by combustion engineers. Studies are reported here on experimental and theoretical research on lateral jet injection into typical combustor flowfields for low-speed turbulent swirling flow conditions in the absence of combustion. The main flow is air in a round cross-sectioned plexiglass tube. The degree of swirl can be varied by varying the angles of the blades of an annular swirler, located upstream of the test section. Lateral jet injection is normal to the main airflow, from round-sectioned nozzles. Either a single lateral jet or two diametrically opposed jets are used for this secondary injection of air into the main airflow. The principal aim is to investigate the trajectory, penetration and mixing efficiency of the lateral injection. Flow visualization with helium-filled soap bubbles and multi-spark ionized path techniques, five-hole pitot probe time-mean velocity measurements, and single-wire time-mean velocity and turbulence data (normal and shear stress) have been obtained in the experimental research program. A fully three-dimensional computer code with two-equation turbulence model has been developed and used in the theoretical research program.Copyright © 2002 by ASME

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旋流场喷射改善混合与燃烧

侧向喷射在旋涡交叉流中的空气动力学优势早已被燃烧工程师所认识和利用。本文报道了低速湍流无燃烧条件下典型燃烧室流场侧向喷射的实验和理论研究。主要气流是空气在一个圆形截面的有机玻璃管。旋涡的程度可以通过改变位于测试部分上游的环形旋流器叶片的角度来改变。侧向喷射与主气流垂直，来自圆形喷嘴。将空气二次喷射到主气流中，要么使用单个侧向射流，要么使用两个截然相反的射流。主要目的是研究侧向注入的轨迹、侵彻和混合效率。在实验研究项目中获得了充氦肥皂泡流动可视化和多火花电离路径技术、五孔皮托探针时间-平均速度测量、单线时间-平均速度和湍流数据(法向和剪切应力)。本文开发了一个具有两方程湍流模型的全三维计算机程序，并用于理论研究项目。ASME版权所有©2002

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Energy Conversion

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