基于烟风系统的火电机组节能运行特性研究
杨茂林^1，2，孙利娟^1，2，岳毅²，张印¹，任仲宇^1，3，赵宏²
（1.中国华能集团有限公司河南分公司，河南 郑州 450018；2.华能沁北发电有限责任公司，河南 济源 459011；
3.华能河南清洁能源分公司，河南 郑州 450018）
摘要： 为了实现火电机组在深度调峰期间节能降耗， 研究烟风系统运行节能特性具有重要意义。单侧烟风系统运行最
多能带50%负荷， 满足深度调峰要求的同时， 还能够有效地降低厂用电率。通过调取烟风系统历史运行数据， 拟合
2 台引风机总功率与负荷公式， 结果为一次函数。拟合2 台引风机总风量与负荷公式， 拟合单台引风机功率与风量公式，
结果均为指数函数。通过进行240 MW， 300 MW 单台引风机运行试验， 进行拟合计算结果与试验结果对比， 验证拟合计
算结果的准确性和可靠性。600 MW 的火电机组， 负荷高于220 MW 时， 运行2 台引风机节能， 负荷低于220 MW 时， 运
行1 台引风机节能。研究结果能够为单侧烟风系统运行节能转折点的探究提供理论指导， 同时丰富了火电机组节能运行
技术手段。
关键词： 火电机组； 烟风系统； 深度调峰； 引风机； 能耗； 节能运行特性
中图分类号： TK223.26      文献标志码： A      文章编号： 2095-0802-(2023)11-0103-05
Energy-efficient Operation Characteristics of Thermal Power Units Based on Air
and Gas System
YANG Maolin^1,2, SUN Lijuan^1,2, YUE Yi², ZHANG Yin¹, REN Zhongyu^1,3, ZHAO Hong²
(1. Henan Branch of China Huaneng Group Co., Ltd., Zhengzhou 450018, Henan, China; 2. Huaneng Qinbei Power Generation
Co., Ltd., Jiyuan 459011, Henan, China; 3. Huaneng Henan Clear Energy Branch, Zhengzhou 450018, Henan, China)
Abstract: In order to realize the energy conservation and consumption reduction of thermal power units during deep peak
regulation, it was of great significance to study the energy-efficient operation characteristics of air and gas system. The single-side
air and gas system could operate with up to 50% load. It met the requirements of deep peak regulation, but also could effectively
reduce the plant power rate. The historical operation data of the air and gas system were collected. The formula between the total
power of the two induced draft fans and the load was fitted, and the result was a linear function. The formula between the total air
volume of the two induced draft fans and the load was fitted, and the formula between the power of the single induced draft fan
and the air volume was fitted. The results were exponential functions. Under the condition of 240 MW and 300 MW, the operation
experiment of single induced draft fan was carried out. The fitting calculated results were compared with the experimental results.
The accuracy and reliability of the fitting calculation results were verified. For 600 MW thermal power unit, when the load was
higher than 220 MW, running two induced draft fans could save energy, when the load was lower than 220 MW, running one induced
draft fan could save energy. The research results could provide theoretical guidance for exploring the energy -efficient turning
point of the single-side air and gas system, and enrich the technical means of energy-efficient operation of thermal power units.
Key words: thermal power unit; air and gas system; deep peak regulation; induced draft fan; energy consumption; energy -
efficient operation characteristics