Numerical Investigation of Influence of Multi-Line Fuel Injection (Methane) on a Tubular Combustor Emissions of Micro Gas Turbine

Journal of University of Babylon for Engineering Sciences Pub Date : 2018-07-05 DOI:10.29196/JUBES.V26I7.1537

Arkan Khikhal Husain, Mahmood Attallah Mashkoor, Fuad Abdul Ameer Khalaf

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引用次数: 1

Abstract

This work presents a technique for design optimization of a gas turbine tubular combustor. This technique is based on the use of computational fluid dynamics (CFD) with CFX solver to reduce emission gases by using multi-line of fuel injection in secondary zone. This research relates the mass fraction of the multi-line of fuel injection as well as the equivalence ratio of the tubular combustion chamber designed for methane fuel. By using k-ε as turbulent model and Probability Density Function (PDF) Flamelet as combustion model. The operating casing data of micro size gas turbine are used, the validation of fuel flow mixing and combustion analyses were carried out with a focus on species concentration in the combustor outlet section. With variant fuel mass flow rate fraction in fuel lines (F2/F1), It was found that, with the new design NO reduced about 56% for the mass fraction 3 in high equivalence ratio and about 30%for the mass fraction 1 for a low equivalence ratio, while reduction in outlet temperature profile (pattern factor) is about 45% → 35%.

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多管路燃油喷射(甲烷)对微型燃气轮机管式燃烧室排放影响的数值研究

本文提出了一种燃气轮机管式燃烧室的优化设计方法。该技术基于计算流体动力学(CFD)和CFX求解器，通过在二次区采用多管路燃油喷射来减少气体排放。本文研究了甲烷燃料的多线喷油质量分数和管状燃烧室等效比。以k-ε为湍流模型，以概率密度函数(PDF)为燃烧模型。利用微型燃气轮机的运行机匣数据，以燃烧室出口段的物质浓度为重点，进行了燃料流混合验证和燃烧分析。在不同的燃料质量流量分数(F2/F1)下，新设计在高当量比的质量分数3下，NO降低约56%，在低当量比的质量分数1下，NO降低约30%，而出口温度曲线(模式因子)降低约45%→35%。

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 University of Babylon for Engineering Sciences

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