碳定价对火电厂技术选择的影响研究任务书
2020-04-26 12:56:39
1. 毕业设计(论文)的内容和要求
为了减缓全球气候变暖以及控制温室气体的排放,很多国家实施了碳税,碳排放权交易政策来对碳进行定价,从而达到碳减排的目的。
我国也在2017年末启动了全国统一的碳交易市场,初期仅纳入了电力行业。
对碳进行定价的目的是使得温室气体带来的社会成本内部化,使得排污企业能够在其生产决策过程中考虑污染物的排放,所以必然会影响企业的投资决策以及污染治理设施的选择。
2. 参考文献
1. Chen, W. and R. Xu, Clean coal technology development in China. Energy Policy, 2010. 38(5): p. 2123-2130. 2. Huang, Y., et al., Abatement technology investment and emissions trading system: a case of coal-fired power industry of Shenzhen, China. Clean Technologies Environmental Policy, 2015. 17(3): p. 811-817. 3. Hui, Z., L. Cao, and Z. Bing, Emissions trading and technology adoption: An adaptive agent-based analysis of thermal power plants in China. Resources Conservation Recycling, 2016. 121: p. S0921344916301021. 4. Ke, W., et al., Emissions trading and abatement cost savings: An estimation of China's thermal power industry. Renewable Sustainable Energy Reviews, 2016. 65: p. 1005-1017. 5. Moreno-Bromberg, S. and L. Taschini, Pollution Permits, Strategic Trading and Dynamic Technology Adoption. 2011. 6. Moreno-Bromberg, S. and L. Taschini, Tradable permits schemes and new technology adoption. 2013. 7. Teng, L. and W. Ning, Analysis of Carbon Emission Reduction Potential by Clean Coal Technology in China. Applied Mechanics Materials, 2015. 737: p. 935-940. 8. Wang, L. Carbon emission trading and technology innovation for low-carbon emission. in International Conference on Electrical Control Engineering. 2011. 9. Wang, L., W.Y. Li, and Y. Song, The Application and Development of IGCC Power Generation Technology in China. Applied Mechanics Materials, 2015. 713-715: p. 1325-1330. 10. Zhou, et al., Scenario analysis of energy-based low-carbon development in China. Journal of Environmental Sciences, 2014. 26(8): p. 1631-1640.
3. 毕业设计(论文)进程安排
2018.12.21-2018.12.31 确定毕业论文题目 2019.1.1-2019.1.31 查阅翻译相关文献翻译,撰写开题报告 2019.2.1-2019.3.15 模型构建和数据收集,初步模拟结果 2019.3.16-2019.4.30 模拟结果整理,形成毕业论文初稿 2019.5.1-2019.5.30 修改毕业论文,定稿 2019.6月初 毕业论文答辩