[1] |
MASSON-DELMOTTE V, ZHAI P, PIRANI A, et al. IPCC. climate change 2021: the physical science basis. contribution of working group I to the sixth assessment report of the intergovernmental panel on climate change[R]. Cambridge, United Kingdom and New York, USA: Cambridge University Press, 2021. |
[2] |
WEI Y M, HAN R, WANG C, et al. Self-preservation strategy for approaching global warming targets in the post-Paris agreement era[J/OL]. Nature Communications, 2020, 11: 1624.https://www.nature.com/articles/s41467-020-15453-z. |
[3] |
WEI Y M, KANG J N, CHEN W. Climate or mitigation engineering management[J/OL]. Engineering, 2021. http://engineering.ckcest.cn/default/page/loadPageIndex?pageId=ab4265bb601844d298ec9cd21f046661&id=34204. |
[4] |
WEI Y M, CHEN K, KANG J N, et al. Policy and management of carbon peaking and carbon neutrality: a literature review[J/OL]. Engineering, 2022.https://www.sciencedirect.com/science/article/pii/S2095809922001333. |
[5] |
魏一鸣, 廖华, 余碧莹, 等. 中国能源报告(2018): 能源密集型部门绿色转型研究[M]. 北京: 科学出版社, 2018. |
[6] |
余碧莹, 赵光普, 安润颖, 等. 碳中和目标下中国碳排放路径研究[J]. bob手机在线登陆学报 (社会科学版), 2021, 23(2): 17-24. |
[7] |
张呈尧. 水泥行业节能减排路径模拟方法及其应用研究[D]. 北京: bob手机在线登陆, 2018. |
[8] |
易兰丽君. 造纸行业节能减排路径模拟方法及应用研究[D]. 北京: bob手机在线登陆, 2020. |
[9] |
吴郧, 余碧莹, 邹颖, 等. 碳中和愿景下电力部门低碳转型路径研究[J]. 中国环境管理, 2021, 3: 48-55. |
[10] |
AN R Y, YU B Y, RU L, et al. Potential of energy savings and CO2 emission reduction in China's iron and steel industry[J]. Applied Energy, 2018, 226: 862-880.doi:10.1016/j.apenergy.2018.06.044 |
[11] |
CHEN J M, YU B, WEI Y M. Energy technology roadmap for ethylene industry in China[J]. Applied Energy, 2018, 224: 160-174.doi:10.1016/j.apenergy.2018.04.051 |
[12] |
LI X, YU B Y. Peaking CO2emissions for China's urban passenger transport sector[J/OL]. Energy Policy, 2019, 133: 110913. https://www.sciencedirect.com/science/article/pii/S0301421519304914. |
[13] |
YU B Y, ZHAO Z, ZHANG S, et al. Technological development pathway for a low-carbon primary aluminum industry in China[J/OL].Technological Forecasting and Social Change, 2021, 173. https://econpapers.repec.org/article/eeetefoso/v_3a173_3ay_3a2021_3ai_3ac_3as0040162521004844.htm. |
[14] |
TANG B J, LI R, YU B Y, et al. How to peak carbon emissions in China’s power sector: a regional perspective[J]. Energy Policy, 2018, 120: 365-381.doi:10.1016/j.enpol.2018.04.067 |
[15] |
TANG B J, LI X Y, YU B Y, et al. Sustainable development pathway for intercity passenger transport: a case study of China[J/OL]. Applied Energy, 2019, 254.https://ideas.repec.org/a/eee/appene/v254y2019ics0306261919313194.html. |
[16] |
TANG B J, GUO Y Y, YU B Y, et al. Pathways for decarbonizing China’s building sector under global warming thresholds[J/OL]. Applied Energy, 2021, 298.https://econpapers.repec.org/article/eeeappene/v_3a298_3ay_3a2021_3ai_3ac_3as0306261921006371.htm. |
[17] |
ZHANG C Y, YU B Y, CHEN J M, et al. Green transition pathways for cement industry in China[J/OL]. Resources, Conservation and Recycling, 2021, 166: 105355. http://www.socolar.com/Article/Index?aid=100085767706&jid=100000004625. |
[18] |
ZHAO G, YU B Y, AN R, et al. Energy system transformations and carbon emission mitigation for China to achieve global 2°C climate target[J/OL]. Journal of Environmental Management, 2021, 292: 112721. https://sme.bit.edu.cn/2018gb/research/researcha/publications/06560884fd8945428543cd1614692956.htm. |