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炼铁新技术研究所(Institute ofNew Ironmaking Technology(INIT))
2013-04-09 15:52     (点击次数:)

所 长: 李家新

副所长:龙红明  王  平  王雪松

成 员: 李家新  龙红明  王  平  杨佳龙  王雪松  付元坤 孟庆民

       汪志全  春铁军  狄瞻霞  魏汝飞  余正伟

炼铁新技术研究所于1992年成立,自成立以来,在高炉节能降耗、环境友好新工艺开发、烧结球团、高炉长寿、高炉控制模型及专家系统等方面承担过多项科研项目,取得了丰硕的研究成果。先后承担过国家自然科学基金、国家科技支撑计划、安徽省科技攻关项目、安徽省自然科学基金等项目,并与多家大中型钢铁企业建立了良好的合作关系,如宝山钢铁、马鞍山钢铁、济南钢铁、南京钢铁、宁波钢铁、梅山钢铁、江苏中天钢铁等。

TheInstitute of New Ironmaking Technology was founded in 1992. Afterthat, manyresearch projects have been studied, including energy conservation of blastfurnace, new environment-friendly ironmaking technology, pelleting and sintering,blast furnace longevity andcontrolling models & expert systems of blastfurnace. These projects come fromthe National Natural Science Foundation, theNational Science and Technology Support Program, Scientific and TechnologicalProjects of Anhui Province and Anhui Province Natural Science Foundationproject. In addition,we establish a good relationship of cooperationwith manymedium-sized iron and steel enterprises, such as Baoshan Steel, Ma’anshanSteel, Jinan Steel, Nanjing steel, Ningbo steel, Meishan steel, JiangsuZhongtian steel.

一、          研究特色与优势Features and Advantages

1)炼铁新工艺的理论与应用研究Theory and Applicationof the New Ironmaking Technology

高炉内矿石还原和焦炭劣化过程研究是本方向的主要特色,研究成果曾获冶金工业部科技进步一等奖。在此基础上,首次提出高炉纯氧富氢混合喷吹煤粉炼铁新工艺,揭示出富氢强化铁矿石还原内在规律以及风口混合喷吹燃料的燃烧特性,焦炭劣化行为,实现系统能源优化,降低碳排放。针对铁矿石流态化还原、转底炉直接还原过程进行了系统研究,揭示含碳球团还原软化行为和热态强度形成机理。先后主持和参与国家十一五攻关、十二五科技支撑计划以及多项国家自然基金项目。

Ironorereduction and coke degradation in the blast furnaceare the main features ofthis research direction, and this research has ever won the first prize for Scientificand TechnologicalProgress issued by the Ministry of Metallurgical Industry. Onthis basis,it is the first time inChina to present the new ironmaking processof pure oxygen blast furnace co-injectingthemixture of hydrogen and pulverized coal, revealing the inherent laws of ironore reduction by hydrogen,the combustion characteristics of mixture injectionand coke degradation behavior. In addition, the reduction of fluidized iron oreand the direct reduction of rotary hearth furnace process have been alsosystematically studied, revealing the softening behavior and the hot strengthof iron ore-carbon pellet. We havedirected or participated many programs,referring to the National Key Technology Support Program and the NationalNatural Science Foundation.

1 纯氧富氢高炉示意图

Fig 1 Schematic diagram of thepure oxygen blastfurnace injecting hydrogen

2 不同富氢条件下的铁矿还原

Fig2.Iron ore reduction under different hydrogen-rich conditions

2)烧结配矿与烟气污染物减排研究Ore Blendingand Emission Reduction of Pollutants for theSinter Process

针对铁矿资源的日益紧张,以及降成本的压力,配矿成为钢铁企业最重要的核心技术之一,本所在铁矿粉基础特性研究和配矿模型开发具有显著的特色,为钢铁企业铁矿石采购提供了重要的基础数据和技术支撑。在国内率先提出在烧结配料中加入抑制剂,利用烧结过程自身的热力学与动力学条件抑制二噁英/SO2/NOx排放的思想。在多项国家自然基金,安徽省科技攻关项目,马钢、梅钢的资助下,揭示出胺类抑制剂破坏二噁英合成的内在机理,突破了传统末端治理的弊端,取得了显著的综合减排效果。参与制定国家十二五烧结烟气污染物排放标准。完成了烧结机工业性连续试验,取得了良好的减排效果。

Ore blending becomes one of the most important technology insteel companies, due tothe decrease of rich iron ore resourcesand the pressuresof cost reduction.We have significant characteristics on the research of basicsintering characteristics of iron ores and the compiling ofore blending model,providing important basic data and technical support for steel companies.Wetake the lead in reducing dioxin / SO2 / NOx emissionsvia theaddition of the depressor into raw materials in China. With the support of theNational Natural Science Foundation, Scientific and Technological Projects ofAnhuiProvince and Foundation of Ma Steel and Mei Steel, we have revealed the destructionmechanism of dioxin by amine synthesis inhibitor and break the drawbacks of thetraditional end-of-pipe treatment, achieving significanteffect of comprehensive emission reduction. In particular, we participate informulating the national standards of pollutants emission forsintering plantand completethe industrial continuous test, achievinggood results in emissionreduction.

3烧结杯实验烟气取样

Fig.3Flue gas sampling from sintering cupexperiment

4尿素减排二噁英的作用机理

Fig.4Emission mechanism of dioxins by urea

3)高炉长寿技术及相关基础研究Blast furnace longevity technology and related fundamental research

研究高炉炉衬侵蚀、冷却壁破损行为和机理,成功开发了高炉炉缸炉底状态监测系统并推广到多家企业,创造经济效益超亿元,该成果获2011年安徽省科学技术二等奖。开发高炉和加热炉喷补技术,拥有系列知识产权和专利。

Thebehavior and mechanism of blast furnace lining erosion and cooling stavebreakage are studied in this research direction.The blast furnace hearthmonitoring system has been successfully developed and applied in severalenterprises, creating economic benefits over a hundred million. Thisachievement got the Second Prize of Science and Technology of Anhui Province.In addition, we develop the gunning technology of blast furnace and heatingfurnace, and possess a full range of intellectual property and patents.

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5高炉长寿部分技术

Fig.5Blastfurnace longevity section technology

4)高炉喷吹煤粉及含能固体废弃物的应用技术与理论The Injection of Pulverized Coal and Energetic Solid Waste into BlastFurnace

国内率先研究通过高炉风口喷吹废塑料、废轮胎类含能废弃物,并在宝钢高炉上进行了工业性试验,为解决污染、替代燃料以及处理大量废塑料和废轮胎提供了关键技术储备。同时也形成了固态废弃物气力输送、高炉风口条件下气化行为和机理研究的新方向。

Wetake the lead took ininjecting waste plastics and scrap tire into blast furnaceof in China, and have finished the industrial test in Bao Steel blastfurnace,providing key technical reserves forreducing the waste pollution andbulk processing waste plastics and scrap tire. At the same time, ithas alsoformed a new direction to study the behavior and mechanism of solid wastegasification under blast furnace conditions.

6纯氧富氢高炉风口回旋区温度及气体分布

Fig.6Thetemperature and gas distribution in the raceway of blast furnace

5冶金固废资源大宗量、高效与可循环利用Bulk Quantity,Efficient and Recyclable Utilization ofMetallurgicalSolid Waste Resources

以实现冶金资源大宗量、高效与可循环利用为主旨。针对冶金一次资源,重点研究多元、劣质难冶炼含铁资源的冶金理论与关键技术;针对冶金二次资源(冶金尘泥、铜冶炼渣、铬渣、镍渣等),重点研究其高附加值、高效利用的相关基础与应用技术。

Toachievebulkquantity, efficient and recyclable utilization ofmetallurgical solid waste resources,the metallurgy theory and key technology ofmulticomponent and inferior iron ore resources are studied, whereas for thesecondary resources (metallurgical dust, copper smelting slag, chromium slag,nickel slag, etc.), the relevant basic and applied technology of highvalue-added and efficient use are studied.

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1 铜渣微观SEM

Fig.7 Copper slag SEMmicrostructure

二、研究队伍Team members

团队现有教授5人,副教授4人,讲师3人,在读博士、硕士研究生30人。

Theteam currently has 4 professors, 3 associate professors, 3 assistant professorsand 30 graduate students.

李家新

工学博士,教授,博士研究生导师,所长,安徽工业大学校长

研究方向:高炉炼铁、非高炉炼铁(含碳球团直接还原)、全氧富氢高炉炼铁技术。

目前担任中国金属学会理事、中国金属学会冶金固废资源利用分会主任委员、全国冶金工艺理论学术委员会委员,中国高等教育学会高等教育学专业委员会常务理事、高等教育管理学会理事,国家自然科学基金委员会第十二届、十三届材料和工程学科部学科评审专家。近年来主持国家自然科基金项目2项、十二五国家科技支撑计划子项目1项、校企合作项目20余项,发表论文50余篇,获安徽省科学技术进步二等奖1项,获国家级优秀教学成果二等奖1项,安徽省优秀教学成果一等奖3项。

5年来,始终围绕炼铁工艺节能减排、新工艺与新技术等开展基础理论与应用技术研究,已形成稳定又有前瞻性的特色方向:1)纯氧富氢混合喷吹高炉新工艺的理论研究。在本学科首先提出高炉纯氧富氢混合喷吹炼铁新工艺和实现系统能源优化的学术思想;2)高炉长寿技术及相关基础研究。成功开发了高炉炉缸炉底状态监测系统,与马钢、梅钢合作对高炉进行拆炉调查,研究高炉炉衬侵蚀、冷却壁破损等行为和机理,为制定高炉长寿管理提供理论支撑。高炉长寿综合技术研究与应用获得2011年安徽省科技进步二等奖。

JiaxinLi

Ph.D.,Doctoral supervisor, Directorof INIT, Presidentof AHUT.

Researchinterests: Blast furnace ironmaking; Non-Blast furnaceironmaking (Direct reduction of iron ore-carbon pellets);Oxygen blast furnacewith high injection of hydrogenous

Profiles:Dr. Li is the council member of Chinese Societyfor Metals(CSM), the chairman of the Committee of Metallurgical Solid WasteResource Utilization CSM, the committee member of the National AcademicCommittee Metallurgical Technology and Theory, the executive director of ProfessionalCommittee of Higher Education of China Association of High Education and theevaluation expert of National Natural Science Foundation of China. He hosts 2projects of National Natural Science Foundation of China, 1 project of NationalKey Technology Support Program and more than 20 projects of university-enterprise cooperation. He haspublished more than 50 papers, and won the second prize of Science and Technology of AnhuiProvince,the second prize of the National Excellent Teaching Achievement Awardand the first prize ofAnhui Province Excellent Teaching Achievement.

In the past five years, hecarried out many researchesof basic theory and application technology referringto energy conservation, new technology and new process of ironmaking. It hasformed a stable and forward-lookingdirection: 1) Oxygenblast furnacewith the injectionof hydrogen.In ironmaking subject, he first proposes new process of oxygenblast furnace with the injection of hydrogen and realizes the academic ideas ofenergy systemic optimization; 2) Blast furnace longevity technology and relatedbasic research. He studied the behavior and mechanism of blast furnace liningerosion and cooling stave breakage, anddeveloped the blast furnace hearthmonitoring system applied in several enterprises, creating economic benefitsover a hundred million. This achievement got the second prize of Science andTechnology of Anhui Province.

龙红明

工学博士,教授,博士研究生导师,副所长,安徽工业大学冶金工程学院副院长

研究方向:铁矿烧结、球团新技术,烧结烟气污染物减排、冶金固废资源利用。

目前担任中国金属学会青年工作委员会委员,中国金属学会冶金固废资源利用分会秘书长,全国非高炉炼铁学术委员会委员,全国中小高炉学术委员会委员,安徽省科学技术协会委员,安徽工业大学学术委员会委员,北京科技大学“2011计划钢铁共性技术协同创新中心客座教授,国家自然科学基金、教育部学位论文与研究生教育评估等项目评审专家。安徽省技术领军人才,安徽省学术和技术带头人后备,荷兰代尔夫特理工大学访问学者,《Journalof Iron and Steel Research, International》、《钢铁研究学报》、《烧结球团》等学术期刊编委。

主持国家自然科学基金3项、安徽省科技攻关项目1项、安徽省重大教学研究项目1项、企业产学研项目20余项。发表学术期刊50 余篇,其中被SCI/EI 收录论文30 余篇,授权国家发明专利7 项,出版著作2 部,获得软件著作权2 件。先后荣获首批全国高校冶金院长奖、全国冶金优秀教材二等奖、安徽省级教坛新秀、安徽省教学成果特等奖(排名第一),指导学生获得2015挑战杯全国一等奖。

Hongming Long

Ph.D.,Doctoral supervisor, Vice director of INIT,Vicepresident of metallurgical engineering schools.

Researchinterests: New technology in iron ore sintering andpelletizing;Reduction of gas pollutants emission in the sintering; Utilizationof metallurgical solid waste resource.

Profiles:Dr. Long is the member of Youth Work Committeeof Chinese Institute for Metal (CSM), Secretary general of the Committee ofMetallurgical Solid Waste Resource Utilization CSM, the member of AcademicCommittee of the National Non -Blast Furnace, the member of the National Mediumand Small Blast Furnace,the member of the Anhui Provincial Association ofScience and Technology, the member of Academic Committee of Anhui University ofTechnology, the guest professor of University of Science and TechnologyBeijing, and the evaluation experts of National Natural Science Foundation ofChina and the Ministry of Education Academic Degree Thesis. He is also thetechnical leading talents of Anhui province, the academic leaders reserve ofAnhui Province, and the visiting scholar of Technische Universiteit Delft,Holland. In addition, he is the member of the editorial board ofJournal ofIron and Steel Research, International, Journal of iron and Steel Research,sintering and pelletizing.

Dr.Long has presided 3 projects of National Natural Science Foundation of China, 1project of Science and Technology in Anhui Province, 1 project of Key Programof Science Research in Anhui Province and more than 20projects ofuniversity-enterprise cooperation. He has published more than 50 papers(morethan 30 papers included in the SCI/EI), been authorized 7 national inventionpatents. For the past year, hewon the first batch of National MetallurgyCollege Dean Award, the second prizeof National Excellent Teaching Book ofMetallurgy, thenew star of Anhui province education and Teaching andthe grandprize of Anhui Province Excellent Teaching Achievement (ranked the first). Inaddition, he guided students to gain the first prize of National"Challenge Cup" in 2015.

杨佳龙

工学博士,教授,博士研究生导师

研究方向:高炉炼铁工艺与新技术研究与开发

http://www.zgltw.cn/pxb/UploadFiles_3909/201205/2012050816460703.jpg加拿大McMaster大学博士后及高级访问学者,世界钢铁协会低品质矿技术成员,第五届国际炼铁学术会议技术委员。先后主持10余项武钢重大科技攻关项目,发表学术论文30余篇,多次参加次国际钢铁/炼铁学术大会作大会学术报告,并担任分会场主席。获国家科技进步二等奖1项,中国冶金科技进步一等奖1项,武钢科技攻关一等奖10余项,2007年被评为武钢突出贡献专家。

JialongYang

Ph.D.,Distinguished Professor,Doctoral supervisor

Researchinterests: Blast furnace ironmaking process;Research anddevelopment of new ironmaking technology

Profiles:Dr.Yang is the post doctor and senior visiting scholar of McMaster University, Canada.Heis also the members of Poor Quality Ores Technologycommittee of World SteelAssociation and the fifth International Ironmaking Conference committee. He presidedmore than 10 major projects of scientific and technology of Wu Steel, and publishedmore than 30 papers. He served as chairman of International Iron and SteelAcademic Conference for many times. He achieved the second prize of NationalScience and Technology Progress Award, the first prize ofChina MetallurgicalScience and Technology Progress Award, and the first prize of Wu SteelScientificand Technological Award for more than 10 times.

王平

教授,宝钢特聘教授,硕士研究生导师。

说明:冶金王平研究方向:高炉炼铁工艺与新技术研究与开发

主要从事无料钟布料研究与测试、炉缸炉底侵蚀模型与高炉长寿技术应用、焦炭劣化与富氧大喷煤、高铝渣性能优化等方面研究。承担本科生《炼铁厂工程设计》课程的教学工作。主持和参与国家自然科学基金3项,主持与参与校企合作项目30余项。在ISIJInternationalIronmaking & Steelmaking等刊物上发表论文60余篇,出版专著1部,获国家发明专利6项。2000年获安徽省五一劳动奖章和安徽省五四青年奖章;2011年获安徽省科技进步二等奖一项;2015年获宝钢教育基金优秀教师奖和中国冶金教育年度杰出人物奖。

PingWang

Professor,Distinguished Professor of Bao Steel, Master’s supervisor, Vice director ofINIT.

Researchinterests: Blast furnace ironmaking process;researchand development of new ironmaking technology

Profiles:Prof. Wang Mainly engaged in research of layoutingraw materials without bell, hearth erosion model, application of longlife technology for blast furnace, coke degradation and oxygen enrichedpulverized coal injection, and high alumina slag performance optimization. He undertakesthe undergraduates teaching work of the engineering design of the ironmaking plant. He hosted and participated in the National Natural ScienceFoundation of China for three times and 30 projects of university-enterprisecooperation. He published more than 60 papers in the ISIJ International,Ironmaking & Steelmaking and other publications, one monographs and6 thenational invention patents. He won the Anhui Provincial Labor Medal and the 54youth Medal of Anhui province in 2000,won the second prize of Anhui provincialscience and technology progress in 2011and won the outstanding teacher award ofBao Steel Education Fund and theannual outstanding person award ofChinaMetallurgical Education in 2015.

王雪松

教授,硕士研究生导师

研究方向:炼铁新工艺、冶金资源利用

111988年毕业于北京科技大学获得工学士学位,1994年毕业于北京科技大学获得应用矿物学硕士学位,中国金属学会选矿分会第六届委员会委员。现从事冶金资源利用、炼铁新工艺方面的研究。承担本科生《工艺矿物学》、《钢铁厂工程设计》等的教学工作。主持省教育厅重点项目1项,参与国家自然科学基金项目多项。在《钢铁》、《钢铁研究学报》、《耐火材料》等期刊发表论文20余篇。主持与参与校企合作项目20多项。获国家发明专利1项。

XuesongWang

Professor,Master’s supervisor, Vice director of INIT.

Researchinterests: New ironmaking technology;Utilization of metallurgyand resource

Profiles:Prof.Wang graduated from the University of Science and Technology Beijing with bachelordegree of engineeringin 1988,and obtained master of applied mineralogy at thesame universityin 1994.He is thesixthcommitteemember of Beneficiation Branch ofChineseSociety for Metals. He now undertakesthe undergraduates teaching work ofprocessmineralogy and steel plant engineering design. He hosted a keyproject of Anhui province department of education and participated in someproject of National Natural Science Foundation. He published more than 20papers in the journalsof Iron & Steel, Journal of Iron and SteelResearch, and Refractory and 1national invention patent.In addition, he hostedand participatedmore than 20projects of university-enterprise cooperation.

傅元坤

副教授,硕士研究生导师。

研究方向:铁矿粉烧结、球团及高炉炼铁新工艺新技术

C:\Users\rufei\Documents\Tencent Files\315038171\Image\C2C\81F2A1518E220FD8708F08D2D4B78AA2.png主持完成多项宝钢、马钢等大型钢铁企业横向科研项目,主要有:马钢、南钢高炉喷吹新煤种的技术开发研究;宝钢2500m3高炉多焦种低熟料比技术攻关;宝钢粉矿流化床还原反应速度及防止粘结失流技术研究;碱金属对马钢高炉顺行危害的调查和排碱措施的研究;马钢转炉污泥烧结特性及机理研究;宝钢高炉氯平衡、煤气系统氯腐蚀及氯化钙对烧结矿高温性能影响;参与纵向科研项目多项,发表论文10余篇。高炉高配比利用高铝矿的研究项目获安徽省科学技术二等奖。

YuankunFu

AssociateProfessor, Master’s supervisor

Researchinterests: New process and technology for Iron orepowder sintering andpelletizing; Blast furnace ironmaking.

Profiles:Hehad presided and a number of projects of some large steel enterprises (such asBao Steel and Ma Steel), including the research of technological developmentabout the new types of coal for blast furnace injection, the study of 2500m³blast furnace with varioustypes of coal and low clinker ratio, the study of reductionreaction of iron ore powder and prevent bonding in fluidized bed,and the studyof sintering property and mechanism ofconverter sludge. He had published morethan 10 papers and wonsecond prize of Science and Technology in Anhui Province.

孟庆民

副教授,硕士研究生导师。

研究方向:冶金过程优化控制、废弃资源综合利用

主要从事废弃资源综合利用和冶金过程优化控制研究,主持国家自然科学基金项目1项,校企合作项目20余项,参与完成国家科技攻关、国家自然科学基金、国际技术合作项目12项。获国家科技进步三等奖、安徽省科技进步二等奖、上海市优秀产学研三等奖、冶金科技进步三等奖各1项,授权发明专利3项。发表论文60余篇,被SCIEI收录近20篇。

QingminMeng

AssociateProfessor, master’s supervisor

Researchinterests: Metallurgical process optimization control;Comprehensive utilization of waste resources

Profiles:HeMainly engaged in comprehensive utilization of waste resources and optimizationcontrol of metallurgical process, presided 1 project of the National NaturalScience Foundation Project and 20 projects of university-enterprise cooperation,andparticipated 12 projects of international technical cooperation project. Hewon the third prize of the National Science and Technology Progress, the secondprize of Anhui Province Science and Technology Progress, the third prize ofShanghai Excellent Production and Research, and third prize of MetallurgicalScience and Technology Progress. In addition, hepublished 60 papers (nearly 20articles included in SCI and EI) andwas authorized 3 invention patents.

汪志全

博士,副教授,硕士研究生导师

研究方向:烧结球团、高炉炼铁新技术

1992年毕业于北京科技大学热能工程系,19973月,北海道大学硕士课程毕业,20003月北海道大学博士课程毕业,获工学博士学位。主要从事烧结矿的矿相和高温特性,以及高炉炼铁新技术研究。承担本科生《炼铁原料制备》、《工程设计导论》、研究生《第二外国语》等的教学工作。主持安徽省教育厅项目1项,教育部留学回国人员基金项目1项,参与国家自然科学基金2项,在国内外期刊及学术会议发表论文20余篇。

ZhiquanWang

Ph.D.,associate professor, master’s supervisor

Researchinterests: Sintering and pelleting;Blast furnaceironmaking technology

Profiles:Dr. Wang graduated from University of Science and Technology Beijing in 1992,received the master degree from Hokkaido University in 1997, and graduated fromHokkaido University with a doctor degree in 2000. Now he mainly engages in ironore phase, high temperature properties of sinter and the research of newtechnology of blast furnace. He undertakes the undergraduates teaching work ofthe Engineering design of the Preparation of raw materials for iron making,Introduction to Engineering Design and Second foreign language forgraduate student. He presided 1 project of education department of Anhuiprovince and 1 project of The Project-sponsored by SRF for ROCS. He alsoparticipated in 2 projects of the National Natural Science Foundation of Chinaand published more than 20 papers.

春铁军

博士,副教授,硕士研究生导师。

研究方向:矿物分离工程、铁矿造块理论与新工艺、烧结清洁生产、含铁二次资源综合利用。

2007年毕业于中南大学获矿物加工工程学士学位,2010年毕业于中南大学获冶金工程硕士学位,2014年获中南大学和澳大利亚联邦科学院(CSIRO)联合培养钢铁冶金专业博士学位;随后以“青年英才”形式进入安徽工业大学工作。主持国家自然科学基金、安徽省自然科学基金、安徽省高校自然科学研究重点项目及校企合作项目5项。在Metallurgicaland Materials Transactions BISIJJOMIronmaking & Steelmaking等期刊发表SCI论文20余篇,申请发明专利9项,授权发明专利7项;荣获第四届“全国高校冶金院长奖”。博士,副教授,硕士研究生导师。

Tiejun Chun

Ph.D.AssociateprofessorMaster student supervisor

Researchinterests:Minerals processing; Cleaner production of theiron ore agglomeration;Comprehensive utilization of the secondary resources.

Profiles:Dr.Chun graduated from Central South university (CSU) China in 2007 with abachelor of science degree in mineral processing engineering, graduated fromCSU in 2010 with a master's degree in metallurgical engineering and graduatedfrom CSU and Commonwealth Scientific and Industrial Research Organisation(CSIRO) Australia in 2014 with a joint doctoral degree in ferrous metallurgy.Then heworks into Anhui University of Technology (AHUT) in the form of"Young Talent ".  He hosted five projects from Natural ScienceFoundation of China (NSFC), Natural Science Foundation of Anhui Province(NSFA), Natural Science Research of Anhui Universities and Industrial Plantsand published more than 20 papers in the journals of Metallurgical andMaterials Transactions B, ISIJ, JOM, Ironmaking and Steelmaking etc.. Inaddition he authorized seven invention patentsand awarded the fourth session ofNationalMetallurgical Colleges Dean Award.

狄瞻霞

博士讲师硕士生导师

研究方向:炼铁新工艺、钢铁冶金传输数学/物理模拟

毕业于东北大学冶金学院,获钢铁冶金工学博士学位。主持国家自然科学基金1项;参研国家自然科学基金2项、安徽省科技攻关计划项目1项、校企合作项目3余项;指导学生参加国家级、省级大学生创新创业计划项目各1项。发表学术论文10余篇,三大检索收录6篇,申请发明专利、实用新型专利4项,授权1项。

Zhanxia Di

Ph.D., Assistantprofessor

Researchinterests: New technology of ironmaking;Mathematical-physicalsimulation of ferrous metallurgy

Profiles:Dr. Di graduated fromNortheastern University with a doctor degree of ferrous metallurgy. She hosts 1project of the Natural Science Foundation of China and participates7 projectsfrom Natural Science Foundation of China, Anhui Science and Technology ResearchProject and university-enterprise cooperation. In addition, she guided studentsto participate 2 projects from College Students’ Innovative Undertaking PlanProject, andpublished more than 10 papers and applied 4 patents (2 authorized).

魏汝飞

D:\证件照片\048.jpg工学博士,讲师

研究方向:低碳炼铁新工艺与新理论、固废资源综合利用、生物质能源转化与利用

中国硅酸盐学会固废分会青年委员会委员,加拿大WesternUniversity与北京科技大学联合培养博士,Powder Technology, International Journal ofChemical Reactor Engineering Journal of MetallurgicalEngineering 审稿人。参与国家自然科学基金项目3项、加拿大自然科学和工程研究会基金1项,校企合作项目1项,在PowderTechnologyIronmaking & SteelmakingAdvancedEngineering MaterialsJournal of Minerals, Metallurgy, andMaterials等期刊发表学术论文17篇,被SCI收录6篇,EI收录3篇。曾获国家博士研究生奖学金等奖励。

Rufei (Ron) Wei

Ph.D.,Assistant Professor

ResearchInterests:New technology and theory of new low-carbon iron making; Comprehensiveutilization of solid waste resources;Biomass conversion and utilization

Profiles:He is the Member of Solid Waste Branch Youth Committee of the Chinese CeramicSociety, the PhD co-supervised by Western University and University of Scienceand Technology Beijing and the Reviewer of Powder Technology, InternationalJournal of Chemical Reactor Engineering and the Journal of MetallurgicalEngineering. He has participated 3 China National Natural Science Fund Project,1 Canada Natural Sciences and Engineering Research Fund Project and 1school-enterprise cooperation project. He has published 17 papers in PowderTechnology, Ironmaking & Steelmaking, Advanced Engineering Materials,Journal of the Minerals, Metallurgy, and Materials journals, 6 papersincluded by SCI and 3 papers included by EI. He has won the national doctoralfellowships and other incentives.

余正伟

工学博士,讲师

研究方向:难处理资源高效节能造块、复杂矿资源综合利用、废渣废水尾矿资源化处理、城市废弃物回收利用

毕业于中南大学资源加工与生物工程学院,获冶金工程工学博士学位。参研国家自然科学基金、湖南省重大科技专项、校企合作项目10余项,博士论文研究课题铁矿粉复合造块法,获2014年度教育部技术发明一等奖。在ISIJInternationalJournal of Minerals, Metallurgy, and MaterialsTMS以及AISTech等期刊和国际会议上发表SCIEI论文8篇,申请发明专利10项,授权8项。曾获国家奖学金、一钢物贸奖学金、烟台万华奖学金等多项奖励。

ZhengweiYu

Ph. DAssistantProfessor

ResearchInterestsHigh efficiency and energysaving agglomeration technology of refractory ferrous resources; Comprehensiveutilization of secondary resources; Resourceful treatment of waste residue andwastewater

Profiles:Dr.Yu got Ph. D degree in Central South University in China (2016). Now he isconducting ferrous metallurgy and minerals processing researches in School ofMetallurgical Engineering, Anhui University of Technology (From 2016). Dr. Yuhas participated in and is participating in more than 10 research projects suchas National Science Fund for Distinguished Young Scholars, Hunan ProvinceImportant Special Fund and School-Enterprise Cooperation Projects. He haspublished 8 papers in leading journals and International Conference &Exhibition such as ISIJ International, JMMM, TMS, AISTech., whichare indexed by SCI or EI. He has filed 10 patents and 8 of them have beenauthorized. He has given 4 presentations in international conference &exhibition. Dr. Yu’s Ph. D dissertation subject, Composite AgglomerationProcess of Iron Ore Fines, won the First-class Technological Invention Awardsof the Ministry of Education. He has received National Scholarships forUndergraduate, Enterprise Scholarships from Shanghai Yi Gang Wu Mao Co., Ltd,Yantai Wan Hua Group Co., Ltd, etc.

三、近年来的科研项目Research projects in recent years

纵向科研项目Government-sponsored research projects

类别

名称

时间

国家自然基金钢铁联合基金重点项目

铁矿烧结过程有害元素脱除与污染物协同控制的基础研究

2017.01-2020.12

国家自然基金面上项目

含能废弃物-煤复合含碳球团固结机理与强度控制研究

2016.1-2019.12

国家自然基金面上项目

基于铈基催化剂的烧结烟气低温协同脱硝脱二噁英机理研究

2017.01-2020.12

国家自然基金钢铁联合基金培育项目

尿素法同步抑制烧结过程SO2NOX、二噁英排放及其耦合作用机理

2013.01-2015.12

国家自然基金面上项目

基于全氧富氢炼铁新工艺的焦炭劣化机理研究

2015.1-2018.12

国家自然基金面上项目

含碳球团还原过程热态强度的变化规律与形成机理

2013.1-2016.12

国家自然基金面上项目

混合喷吹天燃气和煤粉纯氧高炉新工艺的基础研究

2005.1-2007.12

国家自然基金青年项目

基于添加固体抑制剂的烧结过程二噁英减排研究

2009.1-2011.12

国家自然基金青年项目

固体制剂对COREX竖炉炉料黏结的抑制行为及机理研究

2015.1-2017.12

国家自然基金青年项目

铁矿烧结过程微细颗粒物排放行为与控制技术研究

2016.1-2018.12

国家科技支撑计划课题

低品质红矿转底炉生产粒铁工艺开发及示范

2012/01-2015/12

安徽省科技攻关项目

铁矿烧结过程中在线同步脱硫/脱硝/脱二噁英工业化应用关键技术开发

2015.1-2016.12

安徽省自然科学基金青年项目

赤泥中铁铝矿物矿相重构与分离回收基础研究

2016/07-2018/06

安徽高校自然科学研究重点项目

铁矿烧结过程微细颗粒物减排技术研究

2016/01-2018/12

安徽省高校优秀青年人才支持计划(重点)项目

铁矿烧结过程PM2.5减排研究

2016/01-2017/12

安徽省学术和技术带头人及后备人选学术科研活动资助项目

铁矿烧结过程烟气中二氧化硫、氮氧化物、二噁英综合减排研究

2014/01-2016/12

安徽省重大教学改革研究项目

以学生为中心的冶金类工科专业内涵式发展研究与实践

2016/01-2018/12

钢铁冶金新技术国家重点实验室开放基金

提高钢渣的胶凝活性研究

2016/01-2017/12

Category

Name

Date

National  Natural Science Foundation of China

Study  on the basic research on the removal of harmful elements in iron ore  sintering process and the synergetic control of pollutants

2017.01-2020.12

National  Natural Science Foundation of China

Study  on consolidation mechanism and strength control of iron ore-carbon pellets  with energy-containing waste

2016.1-2019.12

National  Natural Science Foundation of China

Study  on the mechanism of low temperature co - de - NOx removal of sintering flue  gas based on cerium - based catalyst

2017.01-2020.12

National  Natural Science Foundation of China

SO2,  NOX, dioxin emission and its coupling mechanism in the process of  simultaneous inhibition of sintering process by urea

2013.01-2015.12

National  Natural Science Foundation of China

Study  on coke deterioration mechanism based on the new process of oxygen blast  furnace with hydrogen enrichment

2015.1-2018.12

National  Natural Science Foundation of China

The  change rule and formation mechanism of the thermal state strength of iron  ore-coal pellet in the reduction process

2013.1-2016.12

National  Natural Science Foundation of China

Study  on oxygen blast furnace with natural gas and pulverized coal mixed injection

2005.1-2007.12

National  Natural Science Foundation of China

Study  on the emission reduction of dioxin in sintering process based on the  addition of solid inhibitor

2009.1-2011.12

National  Natural Science Foundation of China

The  sticking behavior of furnace burdenin COREX shaft furnaceandits inhibition  mechanism by solid preparations

2015.1-2017.12

National  Natural Science Foundation of China

Study  on the emission behavior and control technology of fine particulate matter in  iron ore sintering process

2016.1-2018.12

National  Key Technology Support Program

Technology  development and demonstration of low quality "red ore" treating by  rotary hearth furnace

2012.01-2015.12

Anhui  ProvinceKeyPrograms for Science and Technology Development

Key  technology development of on-line simultaneous desulfurization /  denitrification / de industrialization in iron ore sintering process

2015.1-2016.12

Natural  Science Foundation of Anhui Province

Basic  research ofreconstruction of aluminum-iron phase, separation and recycling

2016.07-2018.06

Key  Program of Natural Science Research in Anhui Province

Study  on emission reduction technology of fine particles in iron ore sintering  process

2016.01-2018.12

Anhui  Province Colleges and Universities Outstanding Youth Talent Support Program

Study  on PM2.5 emission reduction of iron ore sintering process

2016.01-2017.12

Academic  and Technical Leaders of Anhui Province and the Back-up Candidate Academic  Research Activities Funded Projects

Reduction  of sulfur dioxide, nitrogen oxides and dioxin emissions in iron ore sintering  process

2014.01-2016.12

企业联合研发项目Enterprise-sponsoredprojects

类别

课题名称

1.高炉炼铁原料冶金性能测试与研究

(1)           长江钢铁提高低温还原粉化指数的烧结优化配矿研究,2016/04-2016/08

(2)           圣戈班高炉炉料冶金性能及炉况波动影响研究,2013

(3)           宁钢高炉原料冶金性能研究,2007.5-2012.11

(4)           马钢二铁镁质球团矿冶金性能研究,2011.5-2011.9

(5)           福建三钢烧结矿冶金性能检测,2011.12-2012.11

(6)           马钢高炉原料冶金性能研究,2012

(7)           南钢、梅山高炉原料冶金性能研究,长期

2.烧结球团新技术研究与开发

(8)           梅钢用矿结构下的液相行为规律研究,2016/06-2017/07

(9)           柳钢基于铁水总成本最低铁矿评价模型研发,2016/04-2017/01

(10)       宝钢梅山烧结过程二噁英减排技术的研究与开发,2014/03-2014/12

(11)       马钢低投资的烧结过程中脱硫减排工艺技术研发,2013/06-2014/06

(12)       宝钢梅山单种铁矿综合性能评价模型的研究与开发,2013/01-2013/12

(13)       南京钢铁烧结系统漏风测定与长效治理技术研究,2013-2014

(14)       宝钢梅山添加镁质熔剂改善球团矿冶金性能的试验研究,2015/05-2016/04

(15)       马钢三铁超厚料层均质烧结新技术的开发,2012.1-2012.12

(16)       不同原料条件下链篦机-回转窑氧化球团试验研究,云南保山双友尾矿回收有限公司,2011.12-2012.11

(17)       马钢三铁提高转底炉球团成品率的研究,2010.1-2010.12

(18)       绍兴球团厂提高球团抗压强度研究,2012

3.烧结仿真系统数学模型的研究与开发

(19)      烧结仿真系统数学模型的研究与开发,山东星科智能科技有限公司,2011.8-2012.6

(20)       烧结生产仿真实训模型开发,北京金恒博远,2013-2014

4.高炉炉体监护系统研究与开发

(21)      宝钢高炉炉缸数值模拟与解析研究,2015/06-2016/11

(22)       马钢AB高炉炉缸在线侵蚀模型开发,2014-2015

(23)       马钢2500m3高炉炉缸在线侵蚀模型开发,2014-2015

(24)       南钢1#高炉炉体监护系统,2006

(25)       济钢21750 m3炉体监护系统,2007  

(26)       南钢2#高炉炉体监护系统,2008

(27)       梅山3#高炉炉体监护系统,2005

(28)       马钢12500m3高炉第一代炉役扒炉调查研究,2007  

(29)       马钢二铁高炉冷却壁内水管结垢与水质研究,2006

5.高炉工艺理论计算与相关软件开发

(30)       常州中天钢铁公司高炉配料及工艺计算软件开发,2006

(31)       济钢21750 m3生产报表系统开发,2007

6.高炉煤粉燃烧特性及喷吹工艺研究

(32)       福建三钢高炉新煤种混合喷吹工艺研究,2013

(33)       福建三钢煤粉性能研究,2011

(34)       福建三钢高炉新煤种混合喷吹工艺研究,2012

(35)       马钢3600m3高炉风口取样及混合喷吹研究,2012

7.高炉炉顶煤气在线连续分析系统开发

(36)       马钢A4060m3高炉炉顶煤气在线连续分析系统,2006

(37)       马钢B4060m3高炉炉顶煤气在线连续分析系统,2006  

8.低品位矿与固废资源高附加值利用研究与技术开发

(38)       中冶海外工程海外某铁砂矿直接还原炼铁工艺研究,2013/01-2013/12

(39)       中冶海外工程海外某镍冶炼厂尾渣综合利用试验研究,2014/01-2014/06

(40)       含铁铜渣制备还原铁粉工艺技术研究,安徽鑫思源,铜陵有色,2011-2012

(41)       铬盐生产含铁铬渣深度还原制备含铬铁粉新工艺研究,湖北振华化学,2012-2012

9.高炉炉况恢复及无料钟料流轨迹测定

(42)       中天炼铁厂5#高炉无钟顶布料实测与研究,2008

Category

Topic  name

1.Test  and Research on Metallurgical Property of Blast Furnace Iron Making Raw  Materials

(1)  Study on optimization of sintering ore blending with the increase of RDIChangjiang  Steel2016.04-2016.08

(2)  Research on metallurgical properties of blast furnace burden and furnace  condition fluctuationSaint Gobain,2013.10-2014.6

(3)  Study on metallurgical properties of blast furnace raw materials, Ningbo  Steel2007.5-2012.11

(4)  Study on metallurgical properties of magnesia pellets, Ma’anshan Steel, 2011.5-2011.9

(5)  Sinter metallurgical properties testingSanan  Steel2011.12-2012.11

(6)  Study on metallurgical properties of blast furnace raw materialsMa’anshan  Steel, 2012

(7)  Study on metallurgical properties of blast furnace raw materials, Meishan  Steel, long term

2.New  Technology Research and Development of Sintered Pellet

(8)  Study on the liquid phase behavior of the iron ore in the sintering  process,2016.06-2017.07

(9)Development  of the evaluation model of based on the lowest total cost,Liuzhou  Steel,2016.04-2017.01

(10)  Research and development of dioxin emission reduction technology in the  sintering process, Meishan Steel, 2014.03-2014.12

(11)  Development of desulfurization technologyunder low investment in the  sintering process,  Ma’anshan Steel,  2013.06-2014.06

(12) Development of comprehensive  performance evaluation model for iron ore, Meishan Steel,2013.01-2013.12

(13)  Study on air leakage of sintering system and development of long-term  management technology, Meishan Steel, 2013-2014

(14)  Improving metallurgical properties of pellet by adding magnesian flux,Meishan  Steel, 2015.05-2016.04

(15)  Development of new technology of super-thick-layer and homogeneous sintering,  Ma’anshan Steel, 2012.1-2012.12

(16)  Experimental study ofthe oxidized pellet in grate kiln under different  materials conditions, Yunnan Shuangyou tailings recycling Co. Ltd.2011.12-2012.11

(17)  Research on improving pellet yield of rotary hearth furnace,Ma’anshan Steel,  2010.1-2010.12

(18)  Study on improving the compressive strength of pellets, Shaoxing pellet  plant, 2012

3.Research  and Development of Mathematical Model of Sintering Simulation System

(19)  Development of simulation mathematical modelof the sintering process,  Shandong Xingke Intelligent Technology Co. Ltd.2011.8-2012.6

(20)Development  ofsimulation training model of the sintering production,  BeijingJinbohengyuanCo. Ltd.2013-2014

4.Research  and Development of Monitoring System for Blast Furnace Body

(21)  Numerical simulation and analysis of blast furnace, Baoshan Steel2015.06-2016.11

(22)  Development of thehearth erosion model forblast furnace A&B,Maanshan  Steel, 2014-2015

(23)  Development of the hearth erosion model for2500m3blast furnace,  Ma’anshan Steel,2014-2015

(24)  Development of the monitoring system for No. 1 blast furnace,Nanjing Steel,  2006.

(25)  Development of the monitoring system forNo.2 blast furnace,Jinan Steel2007  

(26)  Development of the monitoring system for No.2blast furnace,Nanjing Steel2008  

(27)  Development of the monitoring system for No.3blast furnace, Meishan Steel,  2005

(28)  Anatomy of the2500m3blast furnaceat the end of the first campaign,  Ma’anshan Steel2007

(29)  Study on the water quality andentrustment of water pipe in the cooling stave  of blast furnace,Ma’anshan Steel,2006

5.The  blast furnace process theoretical calculation and related software  development

(30)Developmentof  the software for blast furnace material proportioning process, Changzhou  Zhongtian Steel, 2006

(31)  Development of the production report system of 2# blast furnace, Jinan  Steel,2007

6.The  research of blast furnace pulverized coal combustion characteristic and the  injection process

(32)  Study of mixed injection of new coal for blast furnace,San’an Steel,2013

(33)  Study on pulverized coal performance, San’an Steel,2011.

(34)  Study of mixed injection of new coal for blast furnace,San’an Steel,2012

(35)  Study of mixed injection of new coal for 3600m³ blast furnace. Ma’anshan  Steel, 2012

7.  The blast furnace top gas  online continuously analysis system  development

(36)  Development of online continuously analysis system of top gasfor blast  furnaceA, Ma’anshan Steel, 2006

(37)  Development of online continuously analysis system of top gasfor blast  furnaceB, Ma’anshan Steel, 2006

8.The  high value-addedutilization research and technology development of low grade  ore and solid waste resources

(38)Direct  reduction ironmaking technologybased on iron sand, Zhongye overseas  project,2013.01-2013.12

(39)  Comprehensive utilization of the tailings after nickel smelter, Zhongye  overseas project,2014.01-2014.06

(40)  Reduction iron powder making from the copper slag, Tongling Non-ferrous  Metals Company ,2011-2012

(41)  Reduction iron powder making fromiron-chromium slag, Hubei Zhenghua  Chemistry, 2012-2012

9.The  measurement of recoverring blast furnace condition   and burden  flow trajectory with no bell

(42)  Research on the distribution of furnace burden for No.5 blast furnace,  Changzhou Zhongtian Steel, 2008

四、研究成果Research findings

部分代表性论文Representativepapers

1.       Li Jiaxin, Wei Rufei, Long Hongming, Wang Ping& Cang, Daqiang. (2014). Sticking behavior of iron ore–coal pellets and itsinhibition. Powder Technology, 262(262), 30-35.

2.       Li Jiaxin, Wang Ping, Zhou Liying, & ChengMiao (2007). The reduction of wustite with high oxygen enrichment and highinjection of hydrogenous fuel. ISIJ International, 47(8), 1097-1101.

3.       Long Hongming, Chun Tiejun, Wang Ping, MengQingmin, Di Zhanxia, & Li Jiaxin. (2016). Grinding kinetics ofvanadium-titanium magnetite concentrate in a damp mill and its properties. Metallurgical& Materials Transactions B, 47(3), 1765-1772.

4.       Long Hongming, Li jiaxin, & Wang Ping. (2012).Influence of dioxin reduction on chemical composition of sintering exhaust gaswith adding urea. Journal of Central South University, 19(5), 1359-1363.

5.       Wang Ping, Li Jiaxin, Zhou Liying and LongHongming. (2013) Theoretical and experimental investigation of oxygen blastfurnace process with high injection of hydrogenous fuel[J]. Ironmaking andSteelmaking ,40(4) :312-317.

6.       Wang Ping, Li Jiaxin, & Zhou Liying. (2005).Fundamental study on coke degradation in bf with oxygen enriched blast and highhydrogen atmosphere. Journal of Iron & Steel Research, 12(3), 1-4.

7.       Chun Tiiejun, Ning Chao, Long Hongming, LiJiaxin, & Yang Jialong (2015). Mineralogical characterization of copperslag from tongling nonferrous metals group china. JOM the Journal of theMinerals Metals & Materials Society, 1-9.

8.       Chun Tiejun, & Zhu Deqing. (2015). Newprocess of pellets-metallized sintering process (pmsp) to treat zinc-bearingdust from iron and steel company. Metallurgical & Materials TransactionsB, 46(1), 1-4.

9.       Di Zhan-xia, Luo Zhi-guo, Han Yan-zhi, ZouZong-shu, Li Jia-xin. (2011). Fractal Study on Raceway Boundary. Journal ofIron and Steel Research, International, 18(5):16-19.

10.   Wei Rufei, Li Jiaxin, Tang Guangwu, & CangDaqiang. (2014). Strength and consolidation mechanism of iron ore and coalpellets. Ironmaking & Steelmaking, 41(7), 514-520.

11.   Yu Zhengwei, Li Guanghui, Jiang Tao, ZhangYuanbo, Zhou Feng & Peng Zhiwei. (2015). Effect of basicity ontitanomagnetite concentrate sintering. ISIJ International, 55(4),907-909.

部分代表性专利Representativepatents

1.       李家新、周莉英.一种高效低CO2排放富氢燃气纯氧高炉炼铁工艺,2005,中国,已授权.

2.       李家新、龙红明、王平、孟庆民、金俊、刘自民、肖俊军、张向阳、吴雪健.一种烧结过程的在线脱硫方法,2015,中国,已授权.

3.       龙红明、金俊、李家新、王平、胡峰峰、刘自民.基于添加抑制剂的铁矿石烧结过程脱硫方法,2011,中国,已授权.

4.       龙红明李家新胡锋锋.利用转底炉工艺处理废旧干电池的方法,2011,中国,已授权.

5.       杨佳龙、李家新、郭其飞、杨建、张春雷、陈小龙、相冬文、贾晓颖、杨乐彪、佘文文、孟庆民、狄瞻霞.一种微波与感应加热含碳球团连续生产钢水装置,2016,中国,审中公开.

6.       王平、李家新、周莉英.一种高炉综合煤气连续分析样气取样的煤气预处理装置,2013,中国,已授权.

7.       王平、李家新、周莉英.一种高炉综合煤气连续分析系统,2013,中国,已授权.

8.       孟庆民、李家新、龙红明、王平、狄瞻霞、刘静、郭锐.一种废塑料为碳源的铁基含碳球团及其制备方法,2014,中国,已授权.

9.       赵庆春、李家新、龙红明、王平、高岗、魏汝飞、胡峰峰.一种含碳球团粘结剂及其使用方法,2011,中国,已授权.

10.   李杰民、龙红明、王平、戚义龙、田春林、左俊、施思强.一种应用于炼钢工艺中的超厚料层烧结方法,2015,中国,审中公开.

1.       Li Jiaxin, Zhou Liying. A kind of highefficiency and low CO2 emission of hydrogen rich gas and pure oxygenblast furnace ironmaking process,2005,China, Authorized.

2.       Li Jiaxin, Long Hongming, Wang Ping, et al. Onlinedesulfurization method for sintering process, 2015, China, Authorized.

3.       Long Hongming, Jin Jun, Li Jiaxin, et al. Desulfurizationmethodfor iron ore sintering process based on the addition of inhibitors, 2011,China, Authorized.

4.       Long Hongming, Li Jiaxin,Hu Fengfeng. One methodfor processing waste dry battery by rotary hearth furnace process,2011, China, Authorized.

5.       Yang Jialong, Li Jiaxin, Guo Qifei, et al. Acontinuous production of molten steel by microwave and induction heating usingironore-carbon pellets, 2016, China, Disclosed.

6.       Wang Ping, Li Jiaxin, Zhou Liying.Gaspretreatment device for continuous analysis of blast furnace gas,2013, China, Authorized

7.Wang Ping, Li Jiaxin, Zhou Liying.Integrated gascontinuous analysis system for blast furnace, 2013, China, Authorized.

8. Meng Qingmin, Li Jiaxin, Long Hongming, Wangping, et al. A kind of iron ore-carbon pellet using waste plastics as carbon resource andit’s production method.2014, China, Authorized.

9. Zhao Qingchun, Li Jiaxin, Long Hongming, Wangping, et al.A kind of binder foriron ore-carbon pelletand it’s applicationmethod,2011,China, Authorized.

10. Li Jiemin, Long Hongming, Wang Ping, Qi Yilong, et al.Asintering method of super thick material layer applyingin steelmaking process,2015,China,Under review and public.

专著Monographs

1.       龙红明主编,袁晓丽,刘自民副主编.铁矿粉烧结理论与工艺,冶金工业出版社,2010年第一版/2014年第二版,ISBN978-7-5024-5332-9.

2.       龙红明独著.冶金过程数学模型与人工智能应用,冶金工业出版社,2010年,ISBN978-7-5024-5135-6.

3.       王平主编.炼铁设备.北京,冶金工业出版社.2006,ISBN9787502439231.

1.     Long Hongming(Chief editor),Yuan Xiaoli,LiuZimin(Associate editor).Theory and technologyof iron ore powder sintering, Pressof Metallurgy Industry,2010 the first edition/2014 the second edition, ISBN978-7-5024-5332-9.

2.     Long Hongming.  Metallurgical processmathematical model and intelligence applications, Press of MetallurgyIdustry,2010,ISBN 978-7-5024-5135-6.

3.     Wang Ping. Ironmaking equipment.Press ofMetallurgy Industry.2006,ISBN9787502439231.

五、荣誉与获奖Honor and awards

六、实验设备Laboratoryequipment

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