非碳冶金理念和探索试验  被引量:4

Non-Carbon Metallurgy Concept and Exploratory Experiments

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作  者:李士琦[1] 吴华峰[1] 袁海伦[1,2] 

机构地区:[1]北京科技大学冶金与生态工程学院,北京100083 [2]中信重工机械股份有限公司,河南洛阳471039

出  处:《中国冶金》2010年第5期29-36,共8页China Metallurgy

摘  要:通过新疆巴州太阳能资源调研、碳冶金碳素作用及其温室气体排放分析,提出了"太阳能光伏非碳冶金"理念,实现"太阳能光伏非碳冶金"的技术难点在于建立独立的能量-冶金体系。为此,自主研发进行试验研究的条件,设计制造了公称容量1 kg、1.2 kW级别的非碳冶金平台。太阳能光伏非碳冶金技术包括4项单元技术及1项系统集成技术,通过技术集成创新,具体地进行了4类非碳冶金探索试验,成功实现了太阳能光伏发电技术与钢铁冶金技术的相互渗透和合作融合。在此基础上,深化思考,明确给出了非碳冶金理念的含义、内涵。通过其生产特点的讨论,展望了非碳冶金的未来。By means of solar energy resources research of Bazhou in Xinjiang and analysis on carbon usage and greenhouse gas emission in carbon metallurgy process,a new concept named "non-carbon metallurgy by solar energy photovoltaic technology" was put forward.With the purpose of establishment of independent energy-metallurgy system which is the technology difficult point of the concept,the platform with 1kg nominal capacity furnace and 1.2kw PV power station has been design and built to perform the experimental research."Non-carbon metallurgy by solar energy photovoltaic technology" contains four unit technology and one system integration technology.Four kinds of exploratory experiments have been carried out by technology integration which made the concept come off.It is the interpenetration and blend of technology of PV power and metallurgy.On this basis,the intention of the concept was clearly given.With the discussion of its production features,the future of non-carbon metallurgy was envisaged.

关 键 词:非碳冶金 探索试验 水溶液电解 氢还原 CO2排放 

分 类 号:TF083[冶金工程—冶金物理化学]

 

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