功能材料,
2006, 37(3): 399-404.
煤直接液化用黄铁矿催化剂超细粉碎的研究
刘文萍
1,
, 尹周澜
2,
, 陈启元
3,
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殷瑞钰副理事长当选日本钢铁学会名誉会员","volume":"","year":"2002"},{"abstractinfo":"分析了中国钢铁工业发展背景和近20年的节能环保进程,借鉴国际钢铁企业的环保历程并对比了国内外钢铁企业的主要排放指标水平.从绿色制造的概念出发,研究提出了钢铁工业绿色化的定义和内涵.钢铁工业的绿色化生产不仅仅是清洁生产,还体现了生态工业和循环经济(3R)的思想(Reduce、Reuse、Recy-cle),具体体现在资源能源、生产过程、产品绿色度和钢铁工业与相关行业及社会的关系等四个方面.由此提出了中国钢铁工业绿色化的对策和从三个层次上实施绿色化的重点技术.","authors":[{"authorName":"
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殷瑞钰院士文选发布暨学术研讨会在中国钢研科技集团有限公司隆重举行","volume":"","year":"2014"},{"abstractinfo":"探讨了循环经济的概念和属性,指出:循环经济是以\"3R\"为原则、以资源\"闭环\"利用为特征和\"经济\"合理为边界条件的经济.钢铁工业是我国新型工业化进程中的支柱产业,同时也应是推进循环经济的优先切入点和重要环节.根据钢铁制造流程的特点、流程演进过程和发展趋势分析表明,钢铁工业实施循环经济存在着巨大潜力,发挥钢厂的三大功能--钢铁产品制造、能源转换和社会大宗废弃物处理消纳功能是钢铁企业融入循环经济社会的有效途径.最后讨论了循环经济社会中的钢厂模式.","authors":[{"authorName":"
殷瑞钰","id":"0e4b916a-9d61-40a2-9632-ab4874a8431e","originalAuthorName":"殷瑞钰"},{"authorName":"张春霞","id":"53a5a996-e22b-40cd-9781-7cc8494c718f","originalAuthorName":"张春霞"}],"doi":"","fpage":"1","id":"05afa987-1713-4451-a676-2bc5450b36d4","issue":"7","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"29f9b68a-911c-49ce-b6f9-f5cd870f0118","keyword":"循环经济","originalKeyword":"循环经济"},{"id":"cd14e1da-a17d-47ff-96ef-856f04c0c926","keyword":"钢铁工业","originalKeyword":"钢铁工业"},{"id":"6190eba7-78bc-42ef-84ca-57bb87fd508a","keyword":"功能拓展","originalKeyword":"功能拓展"},{"id":"6caca476-2d16-4700-ba4b-eb8a8bedac19","keyword":"钢厂模式","originalKeyword":"钢厂模式"}],"language":"zh","publisherId":"gt200507001","title":"钢铁企业功能拓展是实现循环经济的有效途径","volume":"40","year":"2005"},{"abstractinfo":"","authors":[{"authorName":"
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殷瑞钰","id":"9a7f6d16-9765-48ce-aee0-f4b5dc2992a5","originalAuthorName":"殷瑞钰"}],"doi":"","fpage":"1","id":"0aaee7b8-e1d2-477e-be20-3f957b5de091","issue":"5","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"515d2574-8375-4b4b-95b6-79b3b04d2859","keyword":"CO2排放","originalKeyword":"CO2排放"},{"id":"3bd4b67f-f189-4eb7-8ba7-8987d7938d1c","keyword":"钢铁工业","originalKeyword":"钢铁工业"},{"id":"930e1601-0df6-48c1-aa5c-89887eaf9a12","keyword":"能源结构","originalKeyword":"能源结构"},{"id":"883ee48e-77a2-495e-b945-59c68aac6d73","keyword":"典型钢铁流程","originalKeyword":"典型钢铁流程"},{"id":"25c2958c-aef7-411e-91b2-d801d916bd9f","keyword":"新一代钢铁流程","originalKeyword":"新一代钢铁流程"}],"language":"zh","publisherId":"gt201005001","title":"钢铁流程结构及对CO2排放的影响","volume":"45","year":"2010"},{"abstractinfo":"本文对钢厂制造流程动态运行过程的物理本质进行了概要的描述,并在此基础上进一步指出:在钢厂制造流程中,铁素物质流与碳素能量流的关系是相伴而行的,而碳素能量流与铁素物质流的关系则是时合时分的。在钢厂制造流程中,不仅存在着铁素物质流网络及相关的运行程序,而且也存在着与铁素物质流转换有关的能量流网络及其运行程序。本文强调在研究钢厂的能源转换功能的方法时指出,不能停留在物料平衡、热平衡的方法上,而应该以动态的输入-输出概念和能量流网络的概念来进一步推动钢厂节能减排工作。本文还讨论了钢厂能量流运行的动力学机制以及能源管控中心的设计原则。进而从铁素物质流系统和碳素能量流系统提出了一系列钢厂节能减排的着手环节。特别对钢厂“只买煤、不买电、不用燃料油”的内涵与煤气等含能介质“近零”排放作了解释。提出中国钢厂的节能减排应该进入以建立能量流网络——能源管控中心为主要标志的新阶段。","authors":[{"authorName":"
殷瑞钰","id":"9556e1e8-9039-4be1-a36a-fdec6e552393","originalAuthorName":"殷瑞钰"}],"categoryName":"|","doi":"","fpage":"1","id":"10d632c5-cb9f-4894-8f8b-e2b6a78d0f33","issue":"4","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"4f8f9279-2673-46d1-b282-7eea61813ba9","keyword":"钢铁制造流程;能量流网络;物理本质","originalKeyword":"钢铁制造流程;能量流网络;物理本质"}],"language":"zh","publisherId":"0449-749X_2010_4_2","title":"论钢厂制造过程中能量流行为和能量流网络的构建","volume":"45","year":"2010"},{"abstractinfo":"高效率、低成本洁净钢平台建设仍是今后几年钢厂科技创新中一项具有普适性、基础性、事关钢厂效率、质量、成本的共性关键技术,对提高企业市场竞争力具有重要意义.洁净钢平台建设需抓好铁水预处理、转炉冶炼、二次冶金、全连铸4项基础支撑型技术和优化-简捷的流程网络和动态-有序运行的物流技术这2项集成技术.当前中国洁净钢平台建设的重点是:认清协同-稳定是洁净钢平台动态运行的核心,高效恒速的连铸生产是洁净钢平台动态运行的有序之源,也是优质、节能、低成本的关键;深入进行各种铁水预处理工艺、装备的适用性研究及技术经济比较;深入研究和优化规范适用范围广、运行效率高、易于协同、成本低廉的钢水吹氩精炼工艺;大力推进真空精炼装备和技术(尤其是高效RH)优化;在炼钢厂新建或改造的设计过程中要高度重视平面布置图(流程网络)的合理化,为稳定、经济地生产高质量钢材打好基础.","authors":[{"authorName":"
殷瑞钰","id":"165760b5-7a3a-4e52-b6dd-375dfe0c7ac0","originalAuthorName":"殷瑞钰"}],"doi":"","fpage":"1","id":"1accea9b-9a53-485a-b9d4-3faf7406e8c2","issue":"10","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"7d9c622f-aeea-44cf-8d26-c1c2e2591af2","keyword":"高效率","originalKeyword":"高效率"},{"id":"c45eb59b-8f49-4793-b10a-dee3f8ef5aa0","keyword":"低成本","originalKeyword":"低成本"},{"id":"1ace7610-9e6d-4884-8d39-248b680fe736","keyword":"洁净钢","originalKeyword":"洁净钢"},{"id":"0eaafa09-2143-4839-aa8d-b3c686a93bde","keyword":"平台","originalKeyword":"平台"}],"language":"zh","publisherId":"zgyj201010001","title":"关于高效率、低成本洁净钢平台的讨论——21世纪钢铁工业关键技术之一","volume":"20","year":"2010"},{"abstractinfo":"为了实现可持续发展和增强市场竞争力,钢铁工业在下一步技术转型中,应高度重视钢铁制造流程的能量流和能量流网络问题.在对比分析热力学孤立系统、封闭系统、开放系统和耗散结构基本特征的基础上,从充分发挥钢厂3个功能的视角,阐述了钢铁制造流程中铁素物质流和能量流的行为规律,提出了应注重与铁素物质流相关的能量流的输入/输出特点和能量流网络构建以及相应的信息化集成调控的观点,剖析了钢铁工业节能减排的潜力,指出了提高钢厂综合竞争力和多方位服务于可持续发展社会的可能性,探讨了相关理论的建立、技术开发和工程化实施的策略等.","authors":[{"authorName":"
殷瑞钰","id":"d7a9b596-b1d6-4336-8b5c-a8f723195ded","originalAuthorName":"殷瑞钰"}],"doi":"","fpage":"1","id":"22cbb9e4-bb3c-4636-af25-470418c060af","issue":"8","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"9f4898dc-2f2b-48c0-ae7b-235427ab3be6","keyword":"热力学系统","originalKeyword":"热力学系统"},{"id":"843c3cd0-8b3e-40bd-9195-aaf0452b1bb4","keyword":"钢铁制造流程","originalKeyword":"钢铁制造流程"},{"id":"8688338e-569f-4e48-b293-f5ef51eb7e17","keyword":"能量流行为","originalKeyword":"能量流行为"},{"id":"115a67fc-688d-4398-9286-51b4e41a2e41","keyword":"能量流网络化集成","originalKeyword":"能量流网络化集成"}],"language":"zh","publisherId":"zgyj201008001","title":"从开放系统、耗散结构到钢厂的能量流网络化集成","volume":"20","year":"2010"},{"abstractinfo":"针对中国钢铁工业绿色发展问题进行研究,在分析绿色发展、循环发展、低碳发展的概念及其相互关系的基础上,提出了钢铁工业绿色发展的科学内涵.基于对当前中国钢铁工业绿色发展的现状和面临挑战的分析,研究预测了未来中国钢铁工业的能源消费总量和污染物排放总量的峰值;提出了2020年钢铁工业绿色发展的目标和钢铁工业发挥三大功能、与其他行业及社会构建生态链接的设想;筛选和凝练出“十三五”钢铁工业绿色发展的三大引领性重大工程、三类关键技术35个和5个示范带动项目;最后提出了中国钢铁工业绿色发展的措施及政策建议.","authors":[{"authorName":"张春霞","id":"432eed68-26dc-4268-af41-58db6fad1c71","originalAuthorName":"张春霞"},{"authorName":"王海风","id":"e9ddb253-cb2c-4de9-99a3-b339822439ab","originalAuthorName":"王海风"},{"authorName":"张寿荣","id":"6b5de2be-2f83-4b75-9e9b-27b61cfbebc6","originalAuthorName":"张寿荣"},{"authorName":"
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