GT36型燃气轮机恒压顺序燃烧特性分析

刘文华; 李啸峰; 张伟; 王超

doi:10.19805/j.cnki.jcspe.2026.250541

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GT36型燃气轮机恒压顺序燃烧特性分析

更新时间：2026-03-11

- GT36型燃气轮机恒压顺序燃烧特性分析
- Analysis of Constant-pressure Sequential Combustion Characteristics of the GT36 Gas Turbine
- 动力工程学报 2026年46卷第3期页码：88-94
- 作者机构：
  
  1. 上海电力股份有限公司闵行发电厂,上海,200245
  2. 上海电力股份有限公司,上海,200131
- 作者简介：
  
  [ "刘文华(1991—),女,博士研究生,研究方向为重型燃气轮机运维及燃烧优化,E-mail:wenhua_liu0685@163.com" ]
- 基金信息：
- DOI：10.19805/j.cnki.jcspe.2026.250541
  中图分类号：
- 网络首发：2026-03-10，
  
  纸质出版：2026-03-10
- 稿件说明：
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刘文华,李啸峰,张伟,王超. GT36型燃气轮机恒压顺序燃烧特性分析动力工程学报, 2026, 46(3): 88-94 https://doi.

org/10.19805/j.cnki.jcspe.2026.250541
刘文华,李啸峰,张伟,王超. GT36型燃气轮机恒压顺序燃烧特性分析动力工程学报, 2026, 46(3): 88-94 https://doi. DOI： 10.19805/j.cnki.jcspe.2026.250541.

org/10.19805/j.cnki.jcspe.2026.250541 DOI：

摘要

针对GT36-S5 型燃气轮机配套恒压顺序燃烧器的燃烧特性及其工程应用价值

系统阐述了其结构原理与实际运行中的燃烧调整机制

分析了燃料分级配比、燃烧压力脉动频率、温度分布等特性参数对机组运行稳定性的影响。通过解析实际工况下的燃烧调整过程参数

揭示了负荷动态变化时燃机燃烧的非线性响应规律。针对冬季低温运行场景

重点分析各级燃料配比、混合器出口温度(MET)设定温度及

等多种因素对燃烧稳定性、不同频段脉动及NO

排放量的影响。结果表明:所形成的燃烧特性分析结果可为机组运行维护提供关键依据

可指导现场人员通过调整燃机负荷、各负荷段停留时间等手段

提升复杂环境下的燃烧稳定性与设备可靠性

对同类重型燃机的运行优化具有重要工程参考价值。

Abstract

Focusing on the combustion characteristics and engineering application value of the constant-pressure sequential burner equipped in the GT36-S5 gas turbine

the structural principles and combustion adjustment mechanisms of the burner in actual operation were systematically elucidated. The effects of characteristic parameters

such as fuel staging ratio

combustion pressure pulsation frequency

and temperature distribution

on the operational stability of the unit were analyzed. By analyzing the process parameters of combustion adjustments under actual operating conditions

the nonlinear response laws of the gas turbine combustion during dynamic load changes were revealed. Specifically addressing the low-temperature operating scenario in winter

the effects of various factors

including fuel staging ratios at various stages

the MET setpoint

and

content

on combustion stability

pulsations in different frequency bands and NO

emissions were analyzed. Results show that the obtained combustion characteristic analysis provides a critical basis for the operation and maintenance of the unit. It can guide on-site personnel to improve combustion stability and equipment reliability in complex environments by adjusting the gas turbine load

the residence time at different load stages

offering significant engineering reference value for the operation optimization of similar heavy-duty gas turbines.

关键词

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references

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