Impact of Large-Scale New Energy Grid Connection on China Energy and Power Structure Analysis Model
Authors
-
North China Electric Power university, Chang Ping District, Beijing, 102206 ,CN
Liu Jicheng -
North China Electric Power university, Chang Ping District, Beijing, 102206 ,CNWang Gang
-
North China Electric Power university, Chang Ping District, Beijing, 102206 ,CNZhao Zhenli
-
North China Electric Power university, Chang Ping District, Beijing, 102206 ,CNWei Qiushuang
Keywords:
New Energy, Energy Structure, Electric Structure, Multi-Objective, Multi-Scenario.Abstract
Developing new energy is an important way to optimize energy structure, which makes significant sense on improving energy efficiency, reducing carbon emission, and lowering external dependence degree. New energy power generation costs are generally higher than conventional ones at this time. They would quickly decrease because of their scale effects, as technology improving and the scale expanding. Referring to the developing trend of new energy power generation costs, this paper sets the minimize generation costs and pollutant emission as optimization objectives, selects primary energy consumption and new installed generation capacity of each year as decision variables, and establishes an optimization model for new energy and energy structure. By setting and calculating the optimal energy structure, new energy developing scale, generation capacity and building sequences, we can get comparative results of power generation costs under three different scenarios, namely reference scenario, energy security scenario and low-carbon scenario. And use a sensitive analysis to clear the effect of total energy consumption and non-fossil energy consumption proportion. A simulation result shows resource and environmental benefits would be greater than new energy exploration and utilization costs. The larger scale, greater benefits and the less operation cost of the energy system as well as the lower external dependence degree will occur. Therefore, China should adhere to low-carbon energy structure developing direction, to improve energy conversion and utilization efficiency, to strengthen investment in new energy and finally achieve energy development strategies and goals.
Downloads
Metrics
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
Lin Boqiang, Yao Xin, Liu Xiying. (2010): “The Strategic adjustment of Chinaps Energy use Structure in the Context of Energy-Saving and Carbon Emission Reducing Initiatives”. Social Science in China, 01,58-71+222.
Zhang Weibo, Pan Yuchao, Cui Zhiqiang, Zhang Weidong. (2012): “new Energy Generation Development approach in China”. Energy of China, 04,26-28+41.
Zhang Xuanxuan. (2011): “ Study on optimization of energy structure and countermeasures of new energy development during “The Twelfth Five-Year Plan Year Plan”. Shandong University of Science and Technology.
Zhang Liying, Ye Yanlu, Xin Yaozhong, Han Feng, Fan Gaofeng. (2010): “Problems and measures of power grid accommodating large scale wind power”. proceedings of the CSEE, 25,1-9.
Lin Boqiang. (2009): “Power development method under lo-carbon economic”. China power Enterprise management, 31,11- 14.
Liu Lancui, Gan Lin, Cao Dong, Jiang Hongqiang. (2009): “analysis and enlightenment from climate policies of major economies”. Sino-Global Energy, 09,1-8.
Yu Hua, Guo Zonglin, Chen Guangya, Chen Xin. (2011): “ Energy industry statues and developing trends”. Electric power, 01, 83- 85.
Zhou Fengao, Cao Zhiguo. (2013): “ Low-carbon development policies and the legal guarantee of China’s electric power industry”. Journal of north China Electric power University (Social Sciences), 01,1-7.
Wang Zhonghui, Wang Yanhua. (2013): “ Talk aabout changing the way our generation from global climate changes”. Energy Conservation & Environmental protection, 01,52-54.
Ren Dongming. (2011): “new energy development and system innovation in China”. Sino-Global Energy, 01,31-36.
Wang Hongyan, Li Jingming, Zhao Qun, Lin Yingji. (2009): “ Resources and development of new energy in China”. Acta petrolei Sinica, 03,469-474.
Wang Yankang, Tang Jing.(2009): “Lessions from us energy policy and new energy development strategies in China”. Journal of Southwest petroleum University (Social Sciences Edition),04,7-11+126.
Jiang Kai, Yang Meiying. (2010): “Development pattern of global new energy sources and enlightenment for China”. Water Resources and power, 01,151-154+53.
Meng Hao, Chen Yingjian. (2010): “Comprehensive assessment on developing capability of new energy industry”. Forum on Science and Technology in China, 06,51-58.
Chen Wei. (2010): “Japanese new energy industry and sino-japan comparison”. China population, Resources and Environment, 06,103-110.
Li Jingming, Wang Hongyan, Zhao Qun. (2008): “Potential and prospects on new energy sources in China”. Natural Gas Industry, 01,149-153+179-180.
Kang Chongqing, Chen Qixin, Xia Qing. (2010): “ Innovation incurred by carbon capture technologies utilized in power systems”. Automation of Electric power Systems, 01,1-7.
Wang Jun, Cai Xingguo, Ji Feng, Li Xianzhong. (2012): “ Evaluation of Risk and Benefit of aTC Relating to university of Renewable Energy Power Generation”. Automation of Electric power Systems,14,108-112.
Wang Qiulin, Hou Yanshuang. (2009): “Electric power of strategy develop to deal with the challenge of the environment and climate changing in our country”. Ecological Economy, 01,308-312.
Sun Rongfu, Zhang Tao, Liang Ji. (2011): “Evaluation and application of wind power integration capacity in power grid”. Automation of Electric power Systems, 04,70-76.
Song Xudong, Mo Juan, Xiang Tieyuan. (2013): “Initial alllocation mechanism of carbon smission permit in electric power industry”. Electric power Automation Equipment, 01,44-49.
State Grid Energy Institute. 2013 International Energy and Electricity Price analysis Report 2013. Beijing: China Electric Power Press.
State Grid Energy Institute. 2013 China Energy Supply and Power Generation Development analysis. 2013. Beijing: China Electric Power Press.
Bp.2012. Statiscal Review of World Energy 2012.
IEa.2011. Electric Information 2011.
State Grid Energy Institute. 2013 China Energy Generation analysis Report. 2013. Beijing: China Electric Power Press.
IEA. 2011. CO2 emission from fuel combustion 2011
IEA. 2011. World Electric Outlook 2011
