基本情况
佘雪峰,副教授,北京科技大学冶金工程专业博士,在钢铁冶金新技术国家重点实验室工作。在科研工作中一直从事高炉低碳炼铁和冶金固废综合利用相关工艺技术研究,已完成转底炉直接还原工艺处理钢铁厂含锌粉尘技术的成套工艺产业化,目前研究重点是采用直接还原工艺对钒钛磁铁矿和稀土复合铁矿的综合利用。同时,在高炉低碳炼铁领域主要负责和参与了炉顶煤气循环-全氧高炉冶炼技术、富氢高炉冶炼技术和高炉金属化炉料冶炼技术的开发等。
近5年来主持包括国家自然科学基金面上项目等国家级项目3项,负责与参加的项目总计15项,合作发表论文近40篇,其中SCI和EI30篇,共申请发明专利10项,授权发明专利6项,获省部级二等奖1项。
研究领域
复合铁矿资源综合利用与氧气高炉工艺。
教育背景
1997.9~2001.7 河北理工大学 学士 冶金工程
2001.8~2004.8
河北钢铁集团邯钢集团公司 连铸连轧车间(技术员)
2004.9~2007.1
河北理工大学 硕士 冶金工程
2007.2~2007.8
河北唐山鑫益钢铁公司 烧结车间(生产科长)
2007.9~2011.7 北京科技大学 博士 冶金工程
2011.7~2014.7 北京科技大学 博士后 热能工程
2017.7~至今 北京科技大学钢铁冶金新技术国家重点实验室 (副教授,硕士生导师,项目博导)
论文发表
[1] 佘雪峰,薛庆国,董杰吉等. 钢铁厂典型粉尘的基本物性与利用途径分析[J].过程工程学报,2009,S1:7~12.
[2] 佘雪峰,薛庆国,王静松等. 钢铁厂含锌粉尘综合利用及相关处理工艺比较[J]. 炼铁,2010,29(4):56~62.
[3] Xuefeng
She, Qingguo Xue, Huixian Yang, YinGui Ding. Formation mechanism of soot in
zinc-bearing dusts direct reduction process [C]. Advanced Materials Research.
2011. 156-157: 817~823.
[4] SHE
Xue-feng, WANG Jing-song,XUE Qing-guo etc.. Basic Properties of Steel Plant Dust and
Technological Properties about Direct Reduction [J]. Intrnational Journal of
Minerals Metallurgy and Materials, 2011, 18(3): 277~284.
[5] 佘雪峰,王静松,韩毅华等. 转底炉直接还原工艺综合数学模型[J]. 北京科技大学学报,2013,35(12):1580~1587.
[6] X. F. She, H. Y. Sun, X. J Dong etc.
Reduction mechanism of titanomagnetite concentrate by carbon monoxide [J]. Journal
of Mining and Metallurgy, Section B: Metallurgy,2013,49
(3) B:263~270.
[7] SHE Xue feng , WANG Jingsong,
WANG Guang etc. Removal
Mechanism of Zn, Pb and Alkalis from
Metallurgical dusts in Direct reduction Process [J]. Journal of Iron and steel Research International, 2014, 21(5):488~495.
[8]佘雪峰,王静松,丰富,王广,薛庆国. 直接还原熔分-酸浸出处理稀土复合铁矿实验研究[J]. 中国稀土学报,2016,34(4):476-485.
[9]Xuefeng She, Zhuo Zhang, Minki Baek, Mingi Choi, Kijung Yong,
Jingsong Wang, Qingguo xue. Recycling Rare-Earth Slag for Enhanced Photoelectrochemical Efficiency
of a Reduced Graphene Oxide-Covered CdSe@ZnO
Hetero-Nanostructured Photoanode[J]. ChemelectroChem, 2016,
3(11), 1890-1898.
[10]Xue-feng She, Jingsong Wang, Qingguo Xue and Wentao Xu. Raw product of
rare-earth ore works as a high-k gate insulator for low-voltage operable organic
field-effect transistors[J]. RSC Advances,
2016, 6(115), 114593–114598.
[11] 佘雪峰,王静松,丰富,王广,薛庆国. 白云鄂博稀土复合铁矿直接还原过程机理[J]. 稀有金属,2017,41(1):71-80.
[12] Xuefeng
She, Zhuo Zhang, Minki Baek and Kijung Yong. Elevated
photoelectrochemical activity of FeVO4/ZnFe2O4/ZnO
branch-structures via slag assisted-synthesis[J] . RSC Advances,
2017, 7(27), 16787–16794.
[13] Xue-feng SHE, Xiu-wei AN, Jing-song
WANG, Qing-guo XUE, Ling-tan Kong. Numerical Analysis of the Carbon Saving
Potential in a Top Gas Recycling Oxygen Blast Furnace[J]. Journal
of Iron and steel Research International, 2017, 24(6):608-616.
[14] X. F. She, Y. X. Zhao, F. Feng, J. S.
Wang. Reduction Process of Rare earth Bayan Obo
complex iron ore by carbon monoxide at 1073 K-1273K[J].
Ironmaking & steelmaking, 2017, 44(6), 430-436.
[15] Xuefeng She, Zhuo
Zhang. Enhanced photoelectrochemical and photocatalytic efficiency of rare
earth slag decorated CdSe/ZnO hetero-nanorods[J] .Research on chemical intermediates, 2017, 43(10), 5587-5600.
[16] Xuefeng She, Zhuo Zhang, Minki Baek, Kijung Yong.
Photoelectrochemical Enhancement of ZnO/BiVO4/
ZnFe2O4/Rare Earth Oxide Hetero-Nanostructures[J] . Applied Surface
Science, 2018,429,29-36.
[17]
Yuzhu Pan, Xuefeng She *, Jingsong
Wang and Yingli Liu. Study of Deposition Formation Mechanism in the
Heat Exchanger System of RHF[J]. Metals, 9(4),2019,
2-11.