云南新能源发电分析研究
Analytical Investigation of New Energy Power Generation in Yunnan Province

作者: 胡雪峰 * , 于靖微 , 赵盛萍 :华北电力大学云南电网公司研究生工作站,昆明; 谭向宇 :云南电力试验研究院(集团)有限公司电力研究院,昆明; 高亚静 :华北电力大学,保定; 田雷 :昆明理工大学云南电网公司研究生工作站,昆明;

关键词: 云南新能源风电光伏风光储互补发电Yunnan Province New Energy Wind Power Photovoltaic Wind-Light-Storage Complementary Power Generation System

摘要:
面对日趋严重的环境污染和资源枯竭问题,经济环保的新能源发电越来越多地受到人们的重视。云南风能、太阳能、生物质能及页岩气等新能源储量巨大,开发潜力可观。本文从云南开发新能源的优势和挑战两方面分析了云南新能源发展遇到的问题,分析介绍了一种适合云南电网特点的风光储互补发电系统。

Abstract:
Facing the increasingly serious problems of environmental pollution and resource depletion, new energy power generation which is economic and environmental attracts more and more attention of us. Yunnan Province has huge reserves of new energy, such as wind, solar, biomass, and shale gas, and its potential development is considerable. This paper analyzes the problems of new energy development in Yunnan Province from two aspects: advantages and challenges in the development of new energy, and introduces a kind of wind-light-storage complementary system which is suitable for the characteristics of Yunnan power grid.

文章引用: 胡雪峰 , 于靖微 , 谭向宇 , 高亚静 , 赵盛萍 , 田雷 (2013) 云南新能源发电分析研究。 智能电网, 3, 97-100. doi: 10.12677/SG.2013.34017

参考文献

[1] 王兴刚. 云南 “十二五” 新能源规划研究[C]. 云南: 2012年云南电力技术论坛论文集, 2012, 304-306.

[2] 吕琨璐, 王宁, 吕剑坤等. 浅谈我国新能源发电技术及其意义[J]. 今日科苑, 2013(2): 122.

[3] 甄恩明, 蔡正达, 王文红. 浅谈生物质气化发电技术及应用潜力[J]. 云南电力技术, 2012, 5: 16-21.

[4] L. Yong, R. LI, G. A. Putrus, et al. Evaluation of the effects of rotor harmonics in a dou-bly-fed induction generator with har- monic induced speed ripple. IEEE Transaction on Energy Con- version, 2003, 18(4): 508-515.

[5] C. Luo, B. T. Ooi. Frequency deviation of thermal power plants due to wind farms. IEEE Transactions on Energy Conver-sion, 2006, 21(3): 708-716.

[6] 扁旭涛. 风光互补供电系统的运行与应用分析[J]. 城市建设理论研究, 2012, 5: 32-34.

[7] R. Chedid, H. Akiki and S. Rahman. A decision support technique for the design of hybrid solar-wind power systems. IEEE Trans on Energy Conver-sion, 1998, 13(1): 76-83.

[8] M. A. Elhadidy, S. M. Shaahid. Para-metric study of hybrid (wind + solar + diesel) power generating sys-tems. Renewable Energy, 2000, 21(2): 129-139.

[9] H. Yang, L. Lu and W. Zhou. A novel optimization sizing model for hybrid solar-wind power generation system. Solar Energy, 2007, 81(1): 76-84.

[10] 沈从举, 贾首星, 汤智辉等. 风光互补发电系统在农村的推广应用[J]. 机械研究与应用, 2013, 2: 86-88.

[11] 郭创新, 张理, 张金江等. 风光互补综合发电系统可靠性分析[J]. 电力系统保护与控制, 2013, 1: 102-108.

分享
Top