Quantifying CO2 emission reduction from industrial symbiosis in integrated steel mills in China

Abstract The low–carbon transition of iron and steel industry is vital for meeting China's CO 2 emission reduction targets. Industrial symbiosis provides important opportunities for CO 2 abatement in China's integrated steel mills (ISMs). A set of methodological rules were proposed for quantification of CO 2 abatement from industrial symbiosis. We defined both cleaner production inside an ISM and synergistic measures with other enterprises as symbiotic measures, and classified them into three groups. Three methods were proposed for quantifying CO 2 emission reduction under different data conditions. A case was designed on the basis of a typical ISM in China. The calculation results of our case showed that: 1) the three most effective symbiotic measures for CO 2 abatement were blast furnace gas (BFG) recycled on site as fuel and sold off site, coke oven gas (COG) recycled on site as fuel and sold off site, and blast furnace (BF) slag sold to cement industry; 2) at present utilizations of gaseous and solid waste/byproducts far outweighed the use of sensible heat in terms of their contributions to CO 2 abatement, which also indicated the abundant potentials in sensible heat recovery; 3) cleaner production inside an ISM contributed more to CO 2 abatement than symbiotic measures with other enterprises did, which proved the arguments of other studies. The calculation and analyses of the case tested the applicability of our definition and methodological rules, and provided a reference result for related research. Finally, suggestions were provided for improving the contribution of industrial symbiosis to CO 2 abatement in ISMs in China.