2024年
83.Yang Zhang, Yuanyuan Bai*, Jin Xu, Rufei Wei*.Prediction of electrochemical properties of La–Y–Ni-based hydrogen storage alloys based on machine learning, International Journal of Hydrogen Energy, 2024. (SCI, IF= 8.1, 中科院2区)
82.刘海斌, 徐东升, 魏汝飞.中天南通3号高炉低燃料比生产实践[J].炼铁, 2025, 2.
81.Liying Qi, Rufei Wei*, Yanjun Wang, Hongming Long, Chunbao Charles Xu, A new approach to collaborative resource utilization of biological sludge and zinc-bearing dust: Reduction characteristics and mechanisms, Separation and Purification Technology, 2024,130102. ( SCI, IF= 8.1, 中科院1区, Top期刊)
80. Rufei Wei, Jingjing Xia, Di Zhou, Dongxiang Meng, Kangzheng Meng, Ying’ao Liu, Hongming Long. Carbothermal reduction of flue gas desulfurization ash through the utilization of waste heat from steel slag: Investigating performance and mechanism, Chemical Engineering Journal, Volume 498, 2024, 155883.( SCI, IF= 13.3, 中科院1区, Top期刊)
79. Wangsheng Cheng; Yanjun Wang; Rufei Wei*; Jiaxin Li; Hongming Long. Reduction Characteristics and Mechanism of Mechanically Activated Iron Ore Powder by Lignin, Fuel, 2024. Accepted. ( SCI, IF= 6.7, 中科院1区, Top期刊)
78. Chunlong Fan, Rufei Wei*, Tong Cheng, Rong Sun, Hao Zhang, Hongming Long,The positive contributions of steel slag in reducing carbon dioxide emissions in the steel industry: Waste heat recovery, carbon sequestration, and resource utilization, Chemical Engineering Journal, Volume 498, 2024, 155379.( SCI, IF= 13.3, 中科院1区, Top期刊)
77. Wei, R., Meng, K., Long, H., & Xu, C.C. (2024). Biomass metallurgy: A sustainable and green path to a carbon-neutral metallurgical industry. Renewable and Sustainable Energy Reviews.114475.( SCI, IF= 16.3, 中科院1区, Top期刊)
76.Rufei Wei, Xueting Zheng, Yulong Zhu, Shanghuan Feng*, Hongming Long, Chunbao Charles Xu, Hydrothermal bio-char as a foaming agent for electric arc furnace steelmaking: Performance and mechanism, Applied Energy, Volume 353, Part A, 2024, 122084.( SCI, IF= 11.2, 中科院1区, Top期刊)
75.Wangsheng Cheng, Tong Cheng, Jiaxin Li, Hongming Long, Rufei Wei*. The Characteristics and Mechanism of Ultrafine Iron Ore Powder Reduction by Coal under Mechanical Activation[J]. Metallurgical Research & Technology,2024. Accepted.
74.赵婷, 张飞虎, 赵立华, 雷杰, 魏汝飞*, &龙红明. 钢铁企业含锌尘泥回转窑处置设计原理及工业实践[J]. 烧结球团, 2024, 49(02):115-122.
2023年
73. Dongxiang Meng, Rufei Wei*, Hongming Long, Jun Li, Feihu Zhang, Hui Wang, A novel method of combined desulfurization and heat utilization of low-temperature flue gas from hot blast stove for blast furnace: Laboratory research and industrial application, Fuel Processing Technology, Volume 252, 2023,107983.( SCI, IF= 7.5, 中科院1区, Top期刊) A类
72. Wei Rufei, Zhang Feihu, Xinyu Wang, Dongxiang Meng, Kangzheng Meng, Hongming Long*, A novel approach for the resource utilization of zinc-bearing dust and sludge via the blast furnace main trough, Waste Management, 2023, 172, 127-139. ( SCI, IF= 8.1, 中科院1区, Top期刊) A类
71. Yifan Wang, Tao Yang, Long Ding, Rufei Wei, Lixin Qian, Hongming Long, Chunbao Charles Xu, Subcritical hydrothermal oxidation of semi-dry ash from iron ore sintering flue gas desulfurization: Experimental and kinetic studies, Waste Management, Volume 160,2023, Pages 156-164.
70. 魏汝飞,郑雪婷,李家新等.碳循环氧气高炉内软熔带上部炉料反应行为.钢铁:1-15[2023-07-06].DOI:10.13228/j.boyuan.issn0449-749x.20230218.
69. 魏汝飞,张飞虎,孟东祥等.生物污泥还原钢铁厂含锌粉尘规律[J].钢铁,2023,58(06):134-142.DOI:10.13228/j.boyuan.issn0449-749x.20220746.
68. Meng, Dx., Wei, Rf.*, Zhang, Fh. et al. Resource utilization of flue gas calcium-based desulfurization ash: a comprehensive review. J. Iron Steel Res. Int. (2023). https://doi.org/10.1007/s42243-022-00904-2
2023年以前
4. Rufei Wei, Lingling Zhang, Daqiang Cang, Jiaxin Li, Xianwei Li, Chunbao(Charles) Xu*. Current status and potential of biomass utilization in ferrous metallurgical industry [J]. Renewable and Sustainable Energy Reviews, 2017, 68:511-524. (SCI, IF= 12.110, 中科院1区, Top期刊) A类
5. Rufei Wei, Dongwen Xiang, Hongming Long*, Chunbao (Charles) Xu, Jiaxin Li. Reduction of Iron Oxide by Lignin: Characteristics, Kinetics and Superiority[J]. Energy, 2020. (SCI, IF= 6.082, 中科院1区, Top期刊) B-top类
6. Wei Rufei, Feng Shanghuan, Long Hongming*, et al. Coupled biomass (lignin) gasification and iron ore reduction: a novel approach for biomass conversion and application[J]. Energy, 2017, 140: 406-414. (SCI, IF= 6.082, 中科院1区, Top期刊) B-top类
7. Di Zhou, Rufei Wei*, Yulong Zhu, et al. Calcium sulfate whisker one-step preparation using semi-dry flue gas desulfurization ash and directional growth control[J]. Journal of Cleaner Production,2021, 290:1-15. (SCI, IF= 7.246, 中科院1区, Top期刊) A类
8. Zhou Di, Rufei Wei*, Hongming Long, et al. Combustion Characteristics and Kinetics of Different Food Solid Wastes Treatment by Blast Furnace[J]. Renewable Energy, 2020, 145:530-541. (SCI, IF= 6.274, 中科院1区, Top期刊) B-top类
9. Feng S, Wei Rufei*, Leitch M, et al. Comparative study on lignocellulose liquefaction in water, ethanol, and water/ethanol mixture: Roles of ethanol and water[J]. Energy, 2018,155: 234-241. (SCI, IF= 6.082, 中科院1区, Top期刊) B-top类
10. Rufei Wei, Haiming Li, Yifeng Lin, et al. Reduction characteristics of iron oxide by the hemicellulose, cellulose, and lignin components of biomass[J]. Energy & Fuels, 2020,155: 234-241. (SCI, IF=3.421) B类
12. Yang, J.; Li, Z.; Wei, R.*; Zhou, D.; Long, H.; Li, J.; Xu, C. Co-Combustion of Food Solid Wastes and Pulverized Coal for Blast Furnace Injection: Characteristics, Kinetics, and Superiority. Sustainability 2022, 14, 7156.
13. Rufei Wei, Daqiang Cang*, Yuanyuan Bai, Dongbo Huang, Xiaoming Liu. Reduction characteristics and kinetics of iron oxide powder by carbon in biomass [J]. Ironmaking and steelmaking, 2015, 43(2), 144-152. (SCI)
14. Rufei Wei, Daqiang Cang*, Lingling Zhang, Yuanyuan Bai. Staged reaction kinetics and characteristics of iron oxide direct reduction by carbon [J]. International Journal of Mineral, Metallurgy and Materials, 2015, 22(10):1025-1032. (SCI)
15. Rufei Wei, Jiaxin Li*, Guangwu Tang, Daqiang Cang. Strength and consolidation mechanism of iron ore and coal pellets [J]. Ironmaking and steelmaking, 2014, 41 (7):514-520. (SCI)
16. Rufei Wei, Dongwen Xiang, Hongming Long et al. Effect of mechanical activation on the structure of pulverized coal and iron ore powder [J]. Metallurgical Research & Technology, 2019, 116(6), 624. (SCI)
17. Jiaxin Li, Rufei Wei*, Hongming Long, Ping Wang, Daqiang Cang. Sticking behavior of iron ore–coal pellets and its inhibition [J]. Powder Technology, 2014, 262:30-35. (SCI, IF= 3.331, 2区)
18. Xiang Lu, Xiao-li Huang, Ru-fei Wei*, Wen Chen, Da-qiang Cang, Fei-hua Yang, Chun-lei Pu. Novel method for improving iron recovery from electric arc furnace slag: on-site hot modification[J]. Journal of iron and steel research, international, 2021. B-top类
19. Nanyang D, Di Z, Rufei Wei*, et al. Reduction Behavior and Mechanism of Iron Ore in Molten Iron in the Process of Converter Steelmaking[J]. International Journal of Chemical Reactor Engineering, 2019,17(6), 1542-6580. (SCI)
20. Di Zhanxia, Li Zhengyi, Wei Rufei*, et al. Sticking behaviour and mechanism of iron ore pellets in COREX pre-reduction shaft furnace[J]. Ironmaking & Steelmaking, 2017, 17 (2) :320-326 (SCI)
21. Junxiang Guo, Lingling Zhang, Daqiang Cang, Liying Qi, Wenbin Dai, Rufei Wei*. NOx process inhibition and energy efficiency improvement in new swirl modification device for steel slag based on coal combustion[J]. International Journal of Chemical Reactor Engineering, 2018, 16(7). (SCI)
22. Wang, Yf., Zhang, Yd., Long, Hm.*, Qian, L x., Luo Y F., Wei R f. * Low-temperature oxidation behavior and mechanism of semi-dry desulfurization ash from iron ore sintering flue gas. J. Iron Steel Res. Int. 28, 1075–1081 (2021). https://doi.org/10.1007/s42243-021-00582-6
23. Rufei Wei*, Jiaxin Li, Guangwu Tang. Strength and Consolidation Mechanism of Green Pellets Containing Carbon[C]. The 2011 International Conference on Chemical, Material and Metallurgical Engineering, Beihai, 2011. (EI)
24. Rufei Wei, Chunbao (Charles) Xu*, Daqiang Cang. An Overview of Biomass Utilization in Ferrous Metallurgy Processes[C]. 10th CSM Steel Congress and the 6th Baosteel Biennial Academic Conference, Shanghai, 2015.
25. Meng Qingmin, Wei Rufei, et al. Thermal strength characteristics and mechanism of iron ore and carbon pellets in the non-isothermal reduction process[J]. ISIJ International, 2018, 58(3), 439-445. (SCI)
26. Yuanyuan Bai, Rufei Wei, Qichi Le*, Haitao Zhang. Effect of Start-Up Levels on the Stress–Strain Field and Cracking Tendency during Direct-Chill Casting of Magnesium Alloy AZ80[J]. Advanced Engineering Materials, 2016, 18(9):1600-1608. (SCI, IF= 2.319, 2区)
27. Yuanyuan Bai, Rufei Wei, Qichi Le*, Haitao Zhang. Modeling of AZ80 magnesium alloy casting process under different electromagnetic frequency[J]. Materials Engineering - Materiálové inžinierstvo (MEMI), 2016, 23, 164-179.
28. Dongbo Huang, Yanbing Zong, Rufei Wei, Wei Gao, Xiaoming Liu*. Direct Reduction of High-Phosphorus Oolitic Hematite Ore Based on Biomass Pyrolysis [J]. Journal of iron and steel research, international, 2016, 23(9):874–883. (SCI)
29. Yifan Wang, Tao Yang, Long Ding, Rufei Wei, Lixin Qian, Hongming Long, Chunbao Charles Xu, Subcritical hydrothermal oxidation of semi-dry ash from iron ore sintering flue gas desulfurization: Experimental and kinetic studies, Waste Management, Volume 160,2023,Pages 156-164.
30. Qingmin Meng, Jiaxin Li, Tiejun Chun, Xiaofeng He, Rufei Wei, Ping Wang, and Hong-ming Long. Effects of cow dung addition on the strength of iron ore carbon- bearing pellets[J]. Advances in Materials Science and Engineering, 2017. (SCI)
31. Wang Ping,Zhang Yueqiang,Long Hongming*,Wei Rufei,Li Jiaxin,Meng Qingmin,Yu shucai. Degradation behavior of coke reacting with H2O and CO2 at high temperature[J]. ISIJ International, 2016. (SCI)
32. Ping Wang, Shucai Yu, Hongming Long*, Rufei Wei, Qingmin Meng, Yueqiang Zhang. Microscopic study on the interior and exterior reactions of coke with CO2 and H2O[J]. Ironmaking and steelmaking, accepted, 2016. (SCI)
33. Hongming Long*, Jiaxin Li, Ping Wang, Rufei Wei. Synthesis pathway of dioxins in iron ore sintering process [J]. Advanced Materials Research, 2011, 194: 71-74.
34. Meng Qingmin, Li Jiaxin, Wei Rufei, Long Hongming* et al. Effects of gangue compositions on the reduction process of carbon-bearing iron ore pellets[J]. Journal of iron and steel research, international, accepted, 2018. (SCI)
38. 魏汝飞,朱玉龙,龙红明,徐春保.生物质铁矿球团研究现状与展望[J].烧结球团,2022,47(01):29-37.
39. 魏汝飞,柯技,李家新,郑宝松,龙红明. 高炉内不同反应性炭的气化差异及对铁矿还原的影响[J].钢铁,2021. B-top类
40. 魏汝飞,孟东祥,李家新,龙红明,朱玉龙,李振营.机械活化条件下超细铁矿粉一氧化碳还原特性及机理[J].过程工程学报,2021. B类
41. 魏汝飞,龙红明,郭培民,李凯等. 机械活化条件下超细铁矿粉氢基还原特性及机理 [J]. 钢铁研究学报, 2021.
42. 魏汝飞*, 李家新, 龙红明, 王平, 施思强. 含碳球团还原过程中粘接行为的量化研究[J].钢铁研究学报, 2014, 26(5):13-16.
43. 魏汝飞, 李家新*, 李杰民, 龙红明, 王平, 高岗, 林高鹏. 尘泥含碳球团弱氧化性气氛下的还原动力学[J].过程工程学报, 2011, 11(3):429-435.
44. 魏汝飞, 周笛, 徐春保*, 等. 不同生物质还原氧化铁的特性[J]. 钢铁研究学报, 2020, v.32(03):16-24.
45. 魏汝飞, 陈龙智, 龙红明, 等. 铁矿烧结烟气半干法脱硫灰亚临界水热非均相氧化[J]. 过程工程学报, 2019.
46. 魏汝飞,朱玉龙,周笛,等. 铁矿烧结烟气半干法脱硫灰除杂及水热非均相低温快速氧化[J].过程工程学报,2021,21(8): 951-958.
47. 魏汝飞*. 高炉喷吹废弃油脂可行性与前景[J]. 节能与环保, 2012, 213(3): 64-67.
48. 魏汝飞*, 郭俊祥, 苍大强. 不同气氛下含碳球团NOx和SO2排放规律[C]. 2013年全国博士生学术论坛 (冶金工程) ,沈阳, 2013.
49. 龙红明,魏汝飞*,李 宁,周笛,孟庆民等. 高炉炼铁协同处理城市可燃固废[J].钢铁, 2018, 53(3), 1-7..
50. 苍大强, 魏汝飞*, 张玲玲, 柏媛媛. 钢铁工业烧结过程二噁英的产生机理与减排研究进展[J].钢铁, 2014, 51(8):1-7.
51. 陈龙智,魏汝飞*,龙红明等. 半干法烧结烟气脱硫灰水热非均相氧化[C]. 中国金属学会青年学术年会,2018.
52. 王毅璠, 龙红明, 魏汝飞*等. 烧结半干法脱硫灰中亚硫酸钙浆液氧化试验研究[C]. 2017年中国钢铁年会,北京,2017.
53. 刘荣伟,柯技,李家新,魏汝飞.基于氧气高炉的铁矿石还原动力学研究[J].金属世界,2021(05):54-61.
54. 刘荣伟,魏汝飞,李家新,柯技.氧气高炉含铁炉料软熔特性研究[J].钢铁研究学报,2021.
55. 郑伟成,XU Chunbao Charles,魏汝飞等.高炉喷吹生物炭研究进展[J].钢铁研究学报,2021,33(01):1-8.DOI:10.13228/j.boyuan.issn1001-0963.20200164.
56. 何军,郑伟成,黄权,魏汝飞等.钢铁尘泥还原与窑渣选铁研究[J].冶金动力,2022(01):113-115+119. DOI:10.13589/j.cnki.yjdl.2022.01.025.
57. 尚海霞,李海铭,魏汝飞等.钢铁尘泥的利用技术现状及展望[J].钢铁,2019,54(03):9-17.DOI:10.13228/j.boyuan.issn0449-749x.20180431.
58. 高鹏,赵丹宁,王平, 魏汝飞等.马钢4000m~3高炉喷吹煤粉燃烧性能研究与应用[J].钢铁,2018,53(12):10-17+43.DOI:10.13228/j.boyuan.issn0449-749x.20180152.
59. 孟庆民, 李家新, 龙红明, 魏汝飞等. 含碳球团还原焙烧过程中的热态强度研究[C].2017年全国钢铁年会,北京,2017.
60. 杨乐彪, 李家新, 杨佳龙, 魏汝飞等. 铁矿含碳球团高温抗压强度研究及机理分析[J]. 钢铁, 2017, 52(10): 13-19.
61. 王平,吴雨,龙红明, 魏汝飞等.碱金属对焦炭与CO2或水蒸汽气化反应的影响[J].过程工程学报,2018,18(04):743-749.
62. 龙红明, 王毅璠, 吕宁宁, 魏汝飞等. 烧结烟气钙基脱硫副产物资源化利用研究进展[J]. 工程研究: 跨学科视野中的工程, 2017, 9(1): 78-84.
63. 柏媛媛,魏汝飞,董方等.稀土Nd对AZ 31镁合金铸态组织和力学性能的影响[J].材料与冶金学报,2017,16(01):53-57+62.DOI:10.14186/j.cnki.1671-6620.2017.01.010.
64. 赵立华, 李宇*, 苍大强, 魏汝飞. Al2O3对辉石质陶瓷烧结性能的影响[J]. 人工晶体学报, 2015, 44(11), 3346-3349.
65. 周鹏, 李家新*, 龙红明, 魏汝飞. 磁化矿石颗粒模型及磁选过程分析[J]. 安徽工业大学学报(自然科学版), 2012, 29(3): 193-197.
66. 高岗, 李家新*, 龙红明, 王平, 魏汝飞. 提高尘泥含碳球团烘干后强度的实验研究[J]. 安徽工业大学学报(自然科学版), 2011, 28(4): 319-324.
67. 龙红明*, 吴雪健, 李家新, 王平, 春铁军, 魏汝飞, 钱立新. 烧结过程二噁英的生成机理与减排途径[J]. 烧结球团, 2016, 3, 46-51.
68. 龙红明,章裕东,王毅璠,施梦婷,魏汝飞,施琦. 柠檬酸铵溶液中半水亚硫酸钙溶解度测定及氧化行为初探[C]. 2019年全国冶金固废资源利用学术年会,重庆,2019.
69. 罗云飞,钱立新,龙红明,魏汝飞,施琦. 配加预处理烧结脱硫灰对铁矿烧结基础特性的影响[J]. 2019年全国冶金固废资源利用学术年会,重庆,2019.
70. 贾来辉,马方清,张慧杰,魏汝飞.中天钢铁8号高炉大修炉缸破损调查研究[J].冶金信息导刊,2020,57(01):33-37.
71. 孟庆民,龙红明,春铁军,魏汝飞,王平 & 李家新.(2019).添加废塑料对含碳压块热成型和焙烧还原的影响.第十二届中国钢铁年会论文集——1.炼铁与原料.,北京市.DOI:10.26914/c.cnkihy.2019.058785.
72. 王平,赵丹宁,魏汝飞,高鹏,李华军 & 余长有.(2018).马钢4000m~3高炉喷吹煤粉燃烧性能研究与喷煤攻关.2018年全国高炉炼铁学术年会摘要集.,西安市.DOI:10.26914/c.cnkihy.2018.002181.
73. 魏汝飞,徐春保,林逸峰,龙红明,李家新 & 苍大强.(2018).生物质能在钢铁冶金碳减排中应用进展及潜力.第二届钢铁行业烟气超低排放控制技术研讨会论文集.,北京市.
74. 高鹏,魏军,李华军,安吉南,王平 & 魏汝飞.(2018).未燃煤粉对焦炭和炉渣性能影响的实验研究.安徽工业大学学报(自然科学版),35(01),1-4+44. DOI:10.3969/j.issn.1671-7872.2018.01.001.