| ID | 125659 |
| Title Proper | Analysis of low-carbon industrial symbiosis technology for carbon mitigation in a Chinese iron/steel industrial park |
| Other Title Information | a case study with carbon flow analysis |
| Language | ENG |
| Author | Zhang, Hui ; Dong, Liang ; Huiquan Li ; Fujita, Tsuyoshi |
| Publication | 2013. |
| Summary / Abstract (Note) | CO2 mitigation strategies in industrial parks are a significant component of the Chinese climate change mitigation policy, and industrial symbiosis can provide specific CO2 mitigation opportunity. Technology is important to support symbiosis, but few studies in China have focused on this topic at the industrial park level. This research presented a case study in a national iron and steel industrial park in China. Focus was given onto carbon mitigation through industrial symbiosis technology using substance flow analysis (SFA). Three typical iron and steel industry technologies, including coke dry quenching (CDQ), combined cycle power plant (CCPP), and CO2 capture by slag carbonization (CCSC) were evaluated with SFA. Technology assessment was further conducted in terms of carbon mitigation potential and unit reduction cost. Compared with the Business as usual (BAU) scenario, application with CDQ, CCPP, and CCSC reduced the net carbon emissions by 56.18, 134.43, and 222.89 kg CO2 per ton crude steel inside the industrial parks, respectively, including both direct and indirect emissions. Economic assessment revealed that the unit costs for the three technologies were also high, thereby necessitating national financial support. Finally, relevant policy suggestions and future concerns were proposed and discussed. |
| `In' analytical Note | Energy Policy Vol.61; Oct 2013: p.1400-1411 |
| Journal Source | Energy Policy Vol.61; Oct 2013: p.1400-1411 |
| Key Words | Iron and Steel Industrial Park ; Industrial Symbiosis ; Carbon Flow Analysis |