1. SEPA Key Laboratory on Eco-industry, Northeastern University, Shenyang 110819, Liaoning, China 2. Shanghai Cadre Environment Energy Science and Technology Co., Ltd., Shanghai 200336, China
Abstract:From China’s iron and steel industry development and policy perspective, based on the coupling method of the whole process of analysis and scenario analysis, China’s steel industry low-carbon development model the related policies were analyzed, combined with China’s current carbon reduction technologies mature; moreover, the future of China’s steel industry CO2 emission reductions and the optimal route optimization techniques were discussed. Results show that up to 2020 on the condition that optimal techniques routes or scenarios would come true, coking, sintering, iron making, converter, electric furnace and steel rolling process can reduce the amount of CO2 emissions for 77.33, 4.4, 7.13, 54.36, 116.2 and 42kg/t, compared with 2010 respectively; if integrated considering various end-processing-technology implementation, to 2020 carbon dioxide emissions would be 1.49 t only. These also indicate that currently in order to reduce CO2 emissions of steel industry in China, the key task is to adjust and construct policy to promote energy-saving and carbon-reducing technology implement.
高成康,陈杉,王申川,秦威. 中国钢铁行业低碳模式及其相关政策分析[J]. 中国冶金, 2015, 25(01): 50-53.
GAO Cheng-kang,CHEN Shan,WANG Shen-chuan,QIN Wei. Low-carbon model and its relevant policy of iron and steel industry in China. China Metallurgy, 2015, 25(01): 50-53.