PDF(590 KB)
PDF(590 KB)
PDF(590 KB)
构建以新能源为主体的新型电力系统框架研究
Building a New Electric Power System Based on New Energy Sources
构建以新能源为主体的新型电力系统,既是我国电力系统转型升级的重要方向,也是实现碳达峰、碳中和目标的关键途径。本文分析了电力系统转型带来的变化、问题及挑战,阐述了新型电力系统的内涵、构建原则与思路;根据电力系统发展的技术特征、新能源接入规模,合理划分新型电力系统的发展阶段并针对性提出各阶段的发展建议。研究认为,新型电力系统以新能源为电能供给主体,可满足不断增长的清洁用电需求,兼具高度的安全性、开放性、适应性;相关系统构建是一项系统性工程,应遵循电力系统的技术演进规律与特征,充分利用成熟技术、存量系统并深入挖掘潜力,同步着力研发新兴技术,积极稳妥并循序渐进实施重大转型。
Building a new electric power system that is based on new energy sources is an important direction for power system transformation and upgrading in China, and it is critical for peaking carbon emissions and achieving carbon neutrality. In this study, we analyze the changes and challenges that are brought by power system transformation and elaborate on the connotation and building principles of a new electric power system. Moreover, we categorize the development of the new system into stages and propose development suggestions for each stage considering the technical features of the system and the new energy access scale. The new electric power system proposed in this study can satisfy the increasing demand for clean power as it primarily uses new energy sources and it has the features of high safety, openness, and adaptability. Building the new electric power system should follow the technical evolution law and characteristics of power systems; it should further exploit the potentials of mature technologies and current power systems. Meanwhile, emerging technologies should be researched and developed.
新型电力系统 / 碳达峰 / 碳中和 / 新能源 / 电力转型
new electric power systems / carbon dioxide peaking / carbon neutrality / new energy sources / power transformation
| [1] |
中国能源中长期发展战略研究项目组. 中国能源中长期(2030、 2050)发展战略研究: 综合卷 [M]. 北京: 科学出版社, 2011. Research Group of Chinese Energy Development Strategy. Research on mid- and long- term (2030, 2050) energy development strategy of China: Comprehensive volume [M]. Beijing: Science Press, 2011.
|
| [2] |
中国科学院能源领域战略研究组. 中国至2050年能源科技发展 路线图 [M]. 北京: 科学出版社, 2009. Research Group of Strategy of Energy Field of China. Energy technologies roadmap to 2050 of China [M]. Beijing: Science Press, 2009.
|
| [3] |
吴敬儒. 中国电力工业2010—2050 年低碳发展战略研究 [M]. 北京: 中国水利水电出版社, 2012. Wu J R. Research on low carbon development strategy of Chinese electrical industry in 2010—2050 [M]. Beijing: China Water & Power Press, 2012.
|
| [4] |
康重庆, 陈启鑫, 夏清. 低碳电力技术的研究展望 [J].电网技术, 2009, 33(2): 1–7. Kang C Q, Chen Q X, Xia Q. Prospects of low-carbon electricity [J]. Power System Technology, 2009, 33(2): 1–7.
|
| [5] |
黄学农. 国家能源局: 我国可再生能源实现跨跃式发展——我 国可再生能源发展有关情况介绍 [J]. 中国电业, 2021 (4): 6–9. Huang X N. National Energy Administration: The leapfrog development of China’s renewable energy: Introduction to China’s renewable energy development [J]. China Electric Power, 2021 (4): 6–9.
|
| [6] |
舒印彪, 张智刚, 郭剑波, 等. 新能源消纳关键因素分析及解决 措施研究 [J]. 中国电机工程学报, 2017, 37(1): 1–8. Shu Y B, Zhang Z G, Guo J B, et al. Study on key factors and solution of renewable energy accommodation [J]. Proceedings of the CSEE, 2017, 37 (1): 1–8.
|
| [7] |
陈国平, 董昱, 梁志峰. 能源转型中的中国特色新能源高质量发 展分析与思考 [J]. 中国电机工程学报, 2020, 40(17): 5493–5505. Chen G P, Dong Y, Liang Z F. Analysis and reflection on high-quality development of new energy with Chinese characteristics in energy transition [J]. Proceedings of the CSEE, 2020, 40(17): 5493–5505.
|
| [8] |
陈国平, 李明节, 许涛, 等. 关于新能源发展的技术瓶颈研究 [J]. 中国电机工程学报, 2017, 37(1): 20–26. Chen G P, Li M J, Xu T, et al. Study on technical bottleneck of new energy development [J]. Proceedings of the CSEE, 2017, 37(1) : 20–26.
|
| [9] |
周孝信, 陈树勇, 鲁宗相. 电网和电网技术发展的回顾与展 望——试论三代电网 [J]. 中国电机工程学报, 2013, 33(22): 1–11. Zhou X X, Chen S Y, Lu Z X. Review and prospect for power system development and related technologies: A concept of threegeneration power systems [J]. Proceedings of the CSEE, 2013, 33(22): 1–11.
|
| [10] |
刘伟, 彭东, 卜广全, 等. 光伏发电接入智能配电网后的系统问 题综述 [J]. 电网技术, 2009, 33(19): 1–6. Liu W, Peng D, Bu G Q, et al. A survey on system problems in smart distribution network with grid connected photovoltaic generation [J]. Power System Technology, 2009, 33(19): 1–6.
|
| [11] |
李明节, 陈国平, 董存, 等. 新能源电力系统电力电量平衡问题研究 [J]. 电网技术, 2019, 43(11): 3979–3986. Li M J, Chen G P, Dong C, et al. Research on power balance of high proportion renewable energy system [J]. Power System technology, 2019, 43(11): 3979–3986.
|
| [12] |
李强, 袁越, 谈定中. 储能技术在风电并网中的应用研究进展 [J]. 河海大学学报(自然科学版), 2010, 38(1): 115–122. Li Q, Yuan Y, Tan D Z. Progress on application of energy storage technology in wind power integration [J]. Journal of Hohai University(Natural Sciences), 2010, 38(1): 115–122.
|
| [13] |
张文亮, 丘明, 来小康. 储能技术在电力系统中的应用 [J]. 电网 技术, 2008, 32(7): 1–9. Zhang W L, Qiu M, Lai X K. Application of energy storage technologies in power grids [J]. Power System Technology, 2008, 32(7): 1–9.
|
| [14] |
曾鸣, 许彦斌. 综合能源系统要义: 源网荷储一体化+多能互补 [N]. 中国能源报, 2021-04-12(04). Zeng M, Xu Y B. Essentials of integrated energy system: Integration of source, network, load and storage + multi-energy complementarity [N]. China Energy News, 2021-04-12(04).
|
| [15] |
张文亮, 汤广福, 查鲲鹏, 等. 先进电力电子技术在智能电网中 的应用 [J]. 中国电机工程学报, 2010, 30(4): 1–7. Zhang W L, Tang G F, Zha K P, et al. Application of advanced power electronics in smart grid [J]. Proceedings of the CSEE, 2010, 30(4): 1–7.
|
| [16] |
周孝信, 鲁宗相, 刘应梅, 等. 中国未来电网的发展模式和关键 技术 [J]. 中国电机工程学报, 2014, 34(29): 4999–5008. Zhou X X, Lu Z X, Liu Y M, et al. Development models and key technologies of future grid in China [J]. Proceedings of the CSEE, 2014, 34(29): 4999–5008.
|
| [17] |
陈国平, 李柏青, 李明节, 等. 新一代特高压交直流电网仿真平 台设计方案 [J]. 电网技术, 2021, 45(8): 3228–3237. Chen G P, Li B Q, Li M J, et al. New generation UHVAC/DC power grid simulation platform design scheme [J]. Power System Technology, 2021, 45(8): 3228–3237.
|
| [18] |
周孝信, 田芳, 岳程燕, 等. 直流输电系统的电磁暂态实时数字 仿真 [R]. 北京: 中国电力科学研究院, 2005. Zhou X X, Tian F, Yue C Y, et al. Electromagnetic transient real-time digital simulation of HVDC transmission system [R]. Beijing: China Electric Power Research Institute, 2005.
|
| [19] |
陈国平, 梁志峰, 董昱. 基于能源转型的中国特色电力市场建设 的分析与思考 [J].中国电机工程学报, 2020, 40(2): 369–379. Chen G P, Liang Z F, Dong Y. Analysis and reflection on the marketization construction of electric power with Chinese characteristics based on energy transformation [J]. Proceedings of the CSEE, 2020, 40(2): 369–379.
|
/
| 〈 |
|
〉 |
