把握经济转型时期的发展大趋势进一步搞好冶金标准化工作

2011年全国铜标准化技术委员会、全国铁矿石与直接还原铁标准化技术委员会和全国生铁及铁合金标准化技术委员会年会于3月25日隆重召开。中国钢铁工业协会名誉会长吴溪淳、国家标准化管理委员会工业一部殷明汉主任、工业和信息化部原材料工业司综合处常国武处长出席了本次会议并做了重要讲话；中国钢铁工业协会常务副秘书长、冶金工业信息标准研究院院长、全国铜标准化技术委员会主任委员张宇春做了工作报告。本刊特开辟专栏予以刊登，以飨读者。     

第三届全国钢标准化技术委员会工作报告

2014年全国钢标准化技术委员会、全国铁矿石与直接还原铁标准化技术委员会和全国生铁及铁合金标准化技术委员会年会于3月27日在江苏泰州隆重召开。中国钢铁工业协会常务副秘书长、冶金工业信息标准研究院院长、全国钢标准化技术委员会主任委员张宇春、全国生铁及铁合金标准化技术委员会主任委员史万利、全国铁矿石与直接还原铁标准化技术委员会副主任委员应海松做了工作报告。本刊特开辟专栏予以刊登,以飨读者。     

全国生铁及铁合金标准化技术委员会工作报告

全国生铁及铁合金标准化技术委员会在国家标准化管理委员会、工业和信息化部、中国钢铁工业协会的领导和冶金工业信息标准研究院的支持下,按照委员会的章程要求,经过全体委员和秘书处的共同努力,2013年较好地完成了委员会所负责的各项工作。为了进一步做好委员会今后的工作,更好地发挥委员会的作用,现将委员会一年来的工作进行总结,并对2014年的工作提出建议。     

全国标样委冶金分委员会工作进展及今后工作设想

在过去的一年中,冶金标样分技术委员会在全国标准样品技术委员会的领导下,在冶金工业信息标准研究院的大力支持下,经全体委员和秘书处工作人员的共同努力,在宣传贯彻有关标准样品的国家、行业标准和技术规范等文件、终审鉴定和报批冶金标准样品、组织编制和实施冶金标准样品研、复制项目计划以及协助冶金标准样品研制、销售信息网工作等方面做了许多工作,取得了一定的成绩。     

全国铁矿石与直接还原铁标准化技术委员会工作报告

一 2013年工作总结 2013年,我国铁矿石进口量达到了8．19亿t,同比增长了10．19％。同期国产铁矿石原矿产量为14．5亿t,同比增加1．31亿t（折合成品矿约4000万t）,同比增长了9．94％。铁矿石作为钢铁工业的主要原材料,与钢铁工业的发展紧密相关,2013年委员会围绕促进钢铁工业转型发展为重点积极开展了本领域里的标准化工作,努力为铁矿石与直接还原铁的生产与国内外贸易提供强有力的技术支撑,现将委员会2013年完成的各项工作任务总结如下：     

全国有色金属标准化工作会议在河南召开

5月29日，河南沁阳迎来了全国有色金属行业的一次盛会，全国有色金属标准化工作会议在这里举办。有色金属技术经济研究院院长、党委书记、全国有色金属标准化技术委员会主任委员范顺科，全国有色金属标准化技术委员会秘书长朱玉华及沁阳市市委副书记毛文明等领导出席会议。     

加强标准化工作推进企业可持续发展

作为企业科技管理基础之一的标准化工作 ,将会成为参与市场竞争、寻找自我发展、推动企业可持续发展的技术基础和手段之一 ,并成为扩大对外经济贸易和技术交流 ,发展外向型经济 ,与国际接轨的技术桥梁和纽带。     

浅谈推进冶金等工贸行业安全生产标准化建设

从山西省冶金等工贸行业发生的生产安全事故情况、原因,谈冶金工贸行业安全生产标准化建设过程中存在的问题,进一步提出推进冶金等工贸行业安全生产标准化建设的措施建议。     

全国有色金属标准化技术委员会在杭州召开标准工作会议

2008年4月15日～4月18日,全国有色金属标准化技术委员会轻金属分标委会、稀有金属分标委会、粉末冶金分标委会在浙江省杭州市召开有色金属国家标准和行业标准审定会和讨论会。来自68个单位的120名代表对《铝及铝合金术语》、《粉末冶金术语》等57项有色金属国家标准、行业标准进行了审定、预审和讨论。     

全国黄金标准化技术委员会成立

2008年6月27日,全国黄金标准化技术委员会成立大会在北京召开,新成立的全国黄金标准化技术委员会委员经过推荐审批确定了43名组成人员：中国黄金协会会长孙兆学会长任主任委员,中国黄金协会副会长兼秘书长张炳南、副会长张永涛任副主任委员。国家标准化管理委员会工业一部主任殷明汉、主管贺汀,国家发改委工业司稀土建材处史瑞庭处长出席了成立大会并讲话。     

建设钢铁资源节约与综合利用标准体系促进冶金标准化工作的全面提升

这次召开的全国钢标准化技术委员会年会,是一次重要的会议,会议将总结一年的工作,交流经验,布置任务,这对于全面落实全国标准化科技创新工作会议精神,推动我国《冶金行业“十一五”标准化发展规划》的实施,发挥标准化工作在促进钢铁工业持续、快速、健康发展的作用以及加强技术委员会的自身建设具有重要的意义。下面,我讲两点意见。1钢铁标准化工作成绩突出2006年,全国钢标准化技术委员会根据全国标准化工作的总体要求,积极开展工作,取得了突出的成绩。概括起来,主要有以下五个方面:第一,完善技术委员会机构建设。全国钢标准化技术委员会参…     

建立科学激励机制全面推进高校辅导员队伍建设

近年来，高校辅导员队伍面临着不少的困境，辅导员工作动力不足、工作积极性淡化成为其中的一个主要表现。本文调查列举了影响高校辅导员队伍战斗力的一些因素，分析了其形成的原因，并依据马斯洛的需要层次理论提出一套辅导员的科学激励机制的基本框架。     

混合型SVC在冶金行业中的应用

针对内蒙古通辽某铝厂6.3 kV配电网电能损耗严重、电能质量不高的情况,提出了利用TSC与APF并联应用的混合型SVC连续补偿大容量负载的无功和谐波分量。该装置于2007年投入使用后,取得了较好的补偿和滤波效果,达到了高可控性和快速响应性,对冶金行业供电系统无功补偿谐波治理具有借鉴意义。     

Metal separations of interest to the Chinese metallurgical industry

IBC Advanced Technologies’ Molecular Recognition Technology(MRT) SuperLig products selectively and rapidly bind with target species enabling their selective removal from solutions.The MRT process can produce a high purity separation product of maximum added value at a competitive cost.SuperLig products have high selectivity for many target species which can include metal ions,anions,and neutral molecules.In operation,the SuperLig product is first placed in a packed column.A solution containing a mixture of the target species and other chemical species is then passed through the column.The target species is removed selectively by the SuperLig product,the column is washed to remove residual feed solution,and the target species is recovered by a minimal quantity of eluent.The result is a pure and concentrated species that can be kept for its value or disposed of safely.The process is environmentally and ecologically friendly with no organic solvents being used.This paper provides a review of some examples of applications of MRT to separations of interest to the Chinese metallurgical industry.Included are several applications of MRT,including Pd separations from Pt metal refinery streams and low-grade spent catalyst wastes,Rh recovery from spent auto catalyst and other feeds,Re removal from selected impurity ions,Cd removal from Co electrolyte,Bi removal from Cu electrolyte,In and Ge separations from difficult matrices,and removal of bivalent first transition series and other metal ions from acid mine drainage(Berkeley Pit,Montana).Finally,the potential application of MRT to separations involving the recovery of rare earth metals and Li from low-level waste solutions and end-of-life products is discussed.     

Metal separations of interest to the Chinese metallurgical industry

IBC Advanced Technologies' Molecular Recognition Technology (MRT) SuperLig(r) products selectively and rapidly bind with target species enabling their selective removal from solutions. The MRT process can produce a high purity separation product of maximum added value at a competitive cost. SuperLig(r) products have high selectivity for many target species which can include metal ions, anions, and neutral molecules. In operation, the SuperLig(r) product is first placed in a packed column. A solution containing a mixture of the target species and other chemical species is then passed through the column. The target species is removed selectively by the SuperLig(r) product, the column is washed to remove residual feed solution, and the target species is recovered by a minimal quantity of eluent. The result is a pure and concentrated species that can be kept for its value or disposed of safely. The process is environmentally and ecologically friendly with no organic solvents being used. This paper provides a review of some examples of applications of MRT to separations of interest to the Chinese metallurgical industry. Included are several applications of MRT, including Pd separations from Pt metal refinery streams and low-grade spent catalyst wastes, Rh recovery from spent auto catalyst and other feeds, Re removal from selected impurity ions, Cd removal from Co electrolyte, Bi removal from Cu electrolyte, In and Ge separations from difficult matrices, and removal of bivalent first transition series and other metal ions from acid mine drainage (Berkeley Pit, Montana). Finally, the potential application of MRT to separations involving the recovery of rare earth metals and Li from low-level waste solutions and end-of-life products is discussed.     

标准推动了冶金企业环保发展

结合钢铁行业生产工艺,分析污染物产生的原因,总结治理成果,阐述标准对行业污染排放所起的作用。     

Greenhouse gases and the metallurgical process industry

The Kyoto Protocol of December 1997 highlighted the importance of greenhouse gas emissions. The metallurgical process industry is a contributor to these emissions and would be seriously affected by measures curtailing them. The present lecture offers a brief review of the greenhouse effect, the sources of greenhouse gases, the potential effect of these gases on global warming, the response of the international community, and the probable cost of national compliance. The specific emissions of the metallurgical process industry, particularly those of the steel and aluminum sectors, are then examined. The potential applications of life-cycle assessments and of an input-output model in programs of emissions’ abatement are investigated, and, finally, a few remarks on some implications for education are presented. Thank you for the honor and the pleasure of addressing you today. I am indeed grateful. I have chosen to speak on greenhouse gases and the metallurgical process industry, because I believe the issue is topical and I hope you will find it of interest. A comprehensive analysis of such a vast subject is clearly beyond the scope of this lecture. I have chosen instead to give you a brief overview of the situation and to examine a few particular points. As you are well aware, in the last three decades, the metallurgical industry has been faced with an explosion of environmental laws and regulations. Greenhouse gases and global warming appear to represent the next threat. That threat generates a wide spectrum of reactions, from concerned interest to indignant incredulity. I propose to start with a quick review of the greenhouse effect, the sources of greenhouse gases, the potential effect of these gases on global warming, the response of the international community, and the probable cost of national compliance. I shall then focus on the metallurgical process industry (mostly the steel and aluminum industries), and investigate the possible usage of life-cycle assessments as well as the potential of an input-output model for the analysis of various alternatives. I will also make a few remarks on certain implications for education. The Extraction and Processing Lecturer Award honors an outstanding scientific leader in the field of nonferrous extractive metallurgy with an invitation to present a comprehensive lecture at the TMS Annual Meeting. Dr. Claude H.P. Lupis is the recipient of The Minerals, Metals and Materials Society’s (TMS) 1999 Extraction & Processing Lecture Award. This award was first established in 1955 to recognize an eminent individual in the extraction and processing of nonferrous metals with an invitation to present a comprehensive lecture at the TMS Annual Meeting. Dr. Lupis, Principal of Claude Lupis & Associates Pty. Ltd. (Sydney, Australia) has been appointed the Danae and Vasilis Salapatas Professor of Ferrous Metallurgy at the Massachusetts Institute of Technology (Cambridge, MA) (1998–2003). Dr. Lupis earned his M.S. at the University of Paris, his M.B.A. from the Institut d’Administration des Entreprises, and his degree of Ingenieur Civil des Mines from the Ecole Nationale Superieure des Mines de Paris. He also obtained his D.Sc. in metallurgy from the Massachusetts Institute of Technology. He has been the recipient of numerous awards and honors throughout his career, including the Senior United States Scientist Award of the Alexander von Humboldt Foundation in 1975, and being named a Ford Foundation Fellow in 1965 and 1970. Dr. Lupis has authored or co-authored more than 40 papers, a graduate-level textbook, and two pedagogical films. He owns a patent on the desulfurization of fluorite ores.