References: [1] Campoccia, A., Dusonchet, L., Telaretti, E., et al. (2014). An analysis of feed-in tariffs for solar PV in six representative countries of the European Union. Solar Energy, 34 (107), 530-542.
[2] Li Yingzi., He Lin., NiuJincang. (2014). Forecasting power generation of grid-connected solar system based on MARKOV CHAIN. ACTA ensring solais sinica, 35 (4), 611-616.
[3] Chen Changsong., Duan Shanxu., Yin Jinjun. (2009). Design of photovoltaic array power forecasting model based on neutral network. Transactions of China Electrotechnical Society, 24(9), 153-158.
[4] SU Jian., ZHOU Limei., LI Rui. (2013). Cost-benefit Analysis of Distributed Grid-connected Photovoltaic Power Generation. In: Proceedings of the CSEE, 33 (34), 50-57.
[5] FAN Bin., YAO Yu., CHU Yan. (2014). International Policy of Distributed Photovoltaic Feed-in Tariff and Enlightenmnt to China. East China Electric Power, 42 (10), 2197-2200.
[6] JIANG Guodong. (2013). The discussion and analysis of world PV subsidy policy. Telecom Power Technology, 30(5), 47-50.
[7] WANG Haiying., BAI Xiaomin., MA Gang. (2012). Reliability Assessment of Grid-Integrated Solar Photovoltaic System. Power System Technology, 36 (10), 1-5.
[8] FU Xueqian., CHEN Haoyong., LIU Guote., et al. (2014). Power quality comprehensive evaluation method for distributed generation. In: Proceedings of the CSEE, 34 (25), 4270-4276.
[9] WANG Zheng., LIANG Wei., CHEN Si-jia., et al. (2013). Rules of distributed generator integration to urban distribution network. Electric Power, 46 (7), 43-46.
[10] Shang Hua., Wang Huirong. (2010). Factors of solar photovoltaic power generation efficiency. Ningxia Electric Power, 4 (5), 48-57.
[11] Zhang Xueli., Liuqi Hui., Ma Huimeng., Li Bei. (2012). factor analysis of PV plant output power. Grid and clean energy, 28 (5), 75-81.
[12] LIU Yong-xin., SHI Feng., JIANG Shuai., et al. (2014). A fuzzy evaluation algorithm for condition monitoring of smart substation relay protection. Power System Protection and Control, 42 (3), 37-41.
[13] SHEN Yang-wu., PENG Xiao-tao., SHI Tong-qin., et al. (2012). Agrey comprehensive evaluation method of power qualitybased on optimal combination weight. Automation of Electric Power Systems, 36 (10), 67-73.
[14] Liu congfa., Romania Richeng., Lei Chunyan., et al. (2013). Assess the state of the power transformer AHP based gray fixed weight clustering. Electric Power Automation Equipment, 33 (6), 103-133.
[15] Bei, W., Dongsheng, L. (2012). University Teachers’ Performance Appraisals Model Based on DEA and AHP. Journal of Digital Information Management, 10 (5), 333-338.
[16] CHEN Ming., LI Hong-yan., WANG Tie-ning. (2006). The determination of nonliner membership function in fuzzy comprehensive evaluation. 36 (9), 124-128.
[17] Jiazhong, O., Min, L. (2013). Study on Fuzzy Evaluation of Credit Risk of Corporate Bond. Journal of Digital Information Management, 11(2), 103-109. |