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1. 典型高碱煤灰对氨煤混燃中氨氧化反应特性的影响 2024年30卷第5期
朱生刚,姚鑫,崔立明,等.典型高碱煤灰对氨煤混燃中氨氧化反应特性的影响[J].洁净煤技术,2024,30(5):65-71.x formation characteristics during ammonia and coal co-firing process[J].Clean Coal Technology,2024,30(5):65-71.
2. 煤粉预热-低氮燃烧机理及颗粒物协同控制 2024年30卷第2期
朱广庆,胡润洁,惠世恩,等.煤粉预热-低氮燃烧机理及颗粒物协同控制[J].洁净煤技术,2024,30(2):347-354.
ZHU Guangqing,HU Runjie,HUI Shi′en,et al.Mechanism of pulverized coal preheating-combustion low-NOx reduction and synergistic control of particulate matter[J].Clean Coal Technology,2024,30(2):
3. 机器学习驱动锅炉燃烧优化技术的现状与展望 2024年30卷第2期
姚顺春,李龙千,卢志民,等.机器学习驱动锅炉燃烧优化技术的现状与展望[J].洁净煤技术,2024,30(2):228-243.
YAO Shunchun,LI Longqian,LU Zhimin,et al.Current situation and prospect of machine learning-driven boiler com-bustion optimization technology[J].Clean Coal Technology,2024,30(2):228-243.
4. 60 t/h预热燃烧锅炉纯燃热解半焦试验 2023年29卷第12期
朱书骏,田继林,朱建国,等.60 t/h预热燃烧锅炉纯燃热解半焦试验[J].洁净煤技术,2023,29(12):103-109.
ZHU Shujun,TIAN Jilin,ZHU Jianguo,et al.Experimental study on pyrolysis of semi-coke pure combustion in 60 t/h preheating combustion boiler[J].Clean Coal Technology,2023,29(12):103-109.
5. Na-K协同作用对湿法脱硝NOx演化过程的影响机制 2023年29卷第10期
邵然磊,韩世旺,玄承博,等.Na-K协同作用对湿法脱硝NOx演化过程的影响机制[J].洁净煤技术,2023,29(10):166-175.
SHAO Ranlei,HAN Shiwang,XUAN Chengbo,et al.Influence mechanism of Na-K synergism on the evolution of NOx in wet NO reduction[J].Clean Coal Technology,2023,29(10):166-175.
6. 不同空气分级模式下氨煤掺烧数值模拟 2023年29卷第9期
牛涛,张文振,魏书洲,等.不同空气分级模式下氨煤掺烧数值模拟[J].洁净煤技术,2023,29(9):145-151.
NIU Tao,ZHANG Wenzhen,WEI Shuzhou,et al.Modeling co-firing ammonia with coal in different air staging modes[J].Clean Coal Technology,2023,29(9):145-151.
7. 氨-煤在沉降炉中掺烧试验及氨的氧化动力学 2023年29卷第9期
闫卫东,秦世泰,杨凯,等.氨-煤在沉降炉中掺烧试验及氨的氧化动力学[J].洁净煤技术,2023,29(9):127-133.
YAN Weidong,QIN Shitai,YANG Kai,et al.Experiment of ammonia-coal co-firing in a drop tube furnace and the kinetic modeling of ammonia oxidation[J].Clean Coal Technology,2023,29(9):127-133.
8. 300MW亚临界循环流化床机组NOx排放建模 2023年29卷第8期
刘春,高明明,张洪福,等.300 MW亚临界循环流化床机组NOx排放建模[J].洁净煤技术,2023,29(8):109-115.
LIU Chun,GAO Mingming,ZHANG Hongfu,et al.NOx emission model of 300 MW subcritical circulating fluidized bed unit[J].Clean Coal Technology,2023,29(8):109-115.
9. 基于MIC-CFS-LSTM的SCR出口NOx浓度动态预测 2023年29卷第6期
吴康洛,黄俊,李峥辉,等.基于MIC-CFS-LSTM的SCR出口NOx浓度动态预测[J].洁净煤技术,2023,29(6):142-150.
WU Kangluo,HUANG Jun,LI Zhenghui,et al.Dynamic prediction of the NOx concentration at SCR system outlet based on MIC-CFS-LSTM model[J].Clean Coal Technology,2023,29(6):142-150.
10. 适应深度调峰的循环流化床NOx排放建模 2023年29卷第6期
高明明,郭炯楠,于浩洋,等.适应深度调峰的循环流化床NOx排放建模[J].洁净煤技术,2023,29(6):24-31.
GAO Mingming,GUO Jiongnan,YU Haoyang,et al.Modeling of nitrogen oxide emission in circulating fluidized bed for deep peak regulation[J].Clean Coal Technology,2023,29(6):24-31.