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生物质掺混煤粉无焰富氧燃烧燃料氮转化数值模拟

朱世超郑红宇李鹏飞施国栋刘前周浩宇柳朝晖

电力科技与环保2024，Vol.40Issue(5)：477-486,10.

电力科技与环保2024，Vol.40Issue(5)：477-486,10.DOI:10.19944/j.eptep.1674-8069.2024.05.004

生物质掺混煤粉无焰富氧燃烧燃料氮转化数值模拟

Numerical simulation on fuel nitrogen conversion in flameless oxy-fuel combustion of biomass-pulverized coal blends

朱世超 ¹郑红宇 ¹李鹏飞 ¹施国栋 ¹刘前 ²周浩宇 ²柳朝晖¹

作者信息

1. 煤燃烧与低碳利用全国重点实验室(华中科技大学),湖北武汉 430074
2. 国家烧结球团装备系统工程技术研究中心(中冶长天国际工程有限责任公司),湖南长沙 410205
折叠

摘要

Abstract

Flameless oxy-fuel combustion significantly reduces NOx emissions and captures high concentrations of CO2,positioning it as a leading technology in clean and low-carbon combustion.Biomass,a widely available renewable energy source,can effectively reduce CO2 emissions when co-fired with pulverized coal.This study investigates the nitrogen conversion characteristics of biomass-coal blends under flameless oxy-fuel combustion through simulations conducted on a 0.58 MW combustion furnace.The simulations incorporate a reaction mechanism and radiation model suitable for oxy-fuel combustion.After verifying the model and algorithms,the study examines the fuel nitrogen conversion mechanism.The results indicate that as the biomass blending ratio increases from 0 to 100%,the low-oxygen zone in the furnace expands,and the distribution of CO widens.Additionally,the peak temperature inside the furnace rises.Specifically,when the blending ratio is 50%,the temperature increase compared to pure pulverized coal combustion is 47℃,and at a blending ratio of 70%,the increase is 55℃.For pure biomass combustion,the peak temperature reaches 1 850 K,which is 71℃higher than that of pure pulverized coal combustion.When the biomass blending ratio increases from 0 to 50%,NO reburning decreases significantly by more than 61%compared to pure coal combustion and remains relatively unchanged with further increases in the blend ratio.Despite the higher volatile content of biomass compared to coal,the total NO from volatiles remains almost constant after blending.The fixed carbon nitrogen decreases significantly after blending due to the lower fixed carbon content in biomass,leading to a reduction in NO emissions.When the blending ratio increases from 0%to 100%,NO emissions decrease by 51%.

关键词

生物质/煤粉/无焰燃烧/富氧燃烧/NO排放

Key words

biomass/coal/flameless oxy-fuel combustion/NO emissions

分类

能源科技

引用本文复制引用

朱世超,郑红宇,李鹏飞,施国栋,刘前,周浩宇,柳朝晖..生物质掺混煤粉无焰富氧燃烧燃料氮转化数值模拟[J].电力科技与环保,2024,40(5):477-486,10.

基金项目

国家自然科学基金项目(52076095) （52076095）

电力科技与环保

ISSN：1674-8069

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