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煤粉炉掺烧芦竹NOx生成特性模拟研究

刘凌陈祺郝建材陆利俊许香婷王长安柳明杜勇博车得福

热力发电2026，Vol.55Issue(3)：100-109,10.

热力发电2026，Vol.55Issue(3)：100-109,10.DOI:10.19666/j.rlfd.202504072

煤粉炉掺烧芦竹NOx生成特性模拟研究

Simulation study on nitrogen oxides formation characteristics during co-combustion with arundo donax in a pulverized-coal boiler

刘凌 ¹陈祺 ¹郝建材 ²陆利俊 ¹许香婷 ²王长安 ²柳明 ³杜勇博 ²车得福²

作者信息

1. 上海上电漕泾发电有限公司,上海 201507
2. 西安交通大学绿色氢电全国重点实验室,陕西西安 710049
3. 上海发电设备成套设计研究院有限责任公司,上海 200240
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摘要

Abstract

Coal-fired power generation coupled with biomass is one of the efficient carbon-reduction technologies for coal-fired units.As a typical energy plant,arundo donax has the characteristics of high yield,strong environmental adaptability and high calorific value,and can be used for large-scale coal-fired power generation.To investigate the effect of co-firing arundo donax in a pulverized-coal boiler on NOx emissions and explore the migration pathways of fuel nitrogen during the co-combustion of coal and arundo donax,a co-combustion reaction model of arundo donax and coal was established with a two-stage plug flow reactor(PFR).The formation characteristics and reaction mechanisms of nitrogen oxides during co-combustion of the arundo donax and coal in a pulverized-coal boiler were studied,focusing on exploring the influences of co-firing ratio,over-fire air(OFA)ratio,and OFA position on the formation characteristics of nitrogen oxides.The results show that the NOx emission can be reduced by co-firing arundo donax,and the mass concentration of NOx decreases with the increase in co-firing ratio of arundo donax.The NOx conversion rate and NOx mass concentration first decrease and then increase with the increase in over-fire air ratio,and there is an optimal over-fire air ratio(around 33%)to minimize NOx emissions.Delaying the position of the OFA leads to a decrease in both the NOx conversion rate and NOx mass concentration.By studying the NOx formation characteristics and the nitrogen migration pathways during co-combustion of coal and arundo donax,theoretical guidance can be provided for parameter setting and reducing exhaust NOx emissions in the co-combustion of arundo donax for coal-fired power generation.

关键词

芦竹/混燃/煤粉炉/氮氧化物/化学反应/动力学模拟

Key words

arundo donax/co-combustion/pulverized-coal boiler/nitrogen oxides/chemical reaction/kinetic simulation

引用本文复制引用

刘凌,陈祺,郝建材,陆利俊,许香婷,王长安,柳明,杜勇博,车得福..煤粉炉掺烧芦竹NOx生成特性模拟研究[J].热力发电,2026,55(3):100-109,10.

基金项目

陕西省重点研发项目(2024GX-YBXM-478) Key Research and Development Project of Shaanxi Province(2024GX-YBXM-478) （2024GX-YBXM-478）

热力发电

ISSN：1002-3364

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