[1]凌俪嘉,王婷,赵艳杰.基于MATLAB方法的太阳辐照度波动特征分析——以乌干达布库津杜太阳能热电混合电站为例[J].气象研究与应用,2022,43(04):98-103.[doi:10.19849/j.cnki.CN45-1356/P.2022.4.16]
 Ling Lijia,Wang Ting,Zhao Yanjie.Characterization of solar irradiance fluctuations based on MATLAB method——A case study of a hybrid solar thermal power plant in Bukuzindu, Uganda[J].Journal of Meteorological Research and Application,2022,43(04):98-103.[doi:10.19849/j.cnki.CN45-1356/P.2022.4.16]
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基于MATLAB方法的太阳辐照度波动特征分析——以乌干达布库津杜太阳能热电混合电站为例()
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气象研究与应用[ISSN:1673-8411/CN:45-1356/P]

卷:
第43卷
期数:
2022年04期
页码:
98-103
栏目:
研究论文
出版日期:
2022-12-15

文章信息/Info

Title:
Characterization of solar irradiance fluctuations based on MATLAB method——A case study of a hybrid solar thermal power plant in Bukuzindu, Uganda
作者:
凌俪嘉1 王婷2 赵艳杰3
1. 广西电力职业技术学院, 南宁 530299;
2. 上海华滋环境科技有限公司, 上海 201908;
3. 深圳民航凯亚有限公司, 广东 深圳 518057
Author(s):
Ling Lijia1 Wang Ting2 Zhao Yanjie3
1. Guangxi Electrical Polytechnic Institute, Nanning 530299, China;
2. Shanghai Huazhi Environmental Technology Limited Company, Shanghai 201908, China;
3. Shenzhen Civil Aviation Kaiya Limited Company, Guangdong Shenzhen 518057, China
关键词:
MATLAB太阳辐照度波动中值滤波阈值
Keywords:
MATLABsolar irradiancefluctuationmedian filteringthreshold value
分类号:
P422.1
DOI:
10.19849/j.cnki.CN45-1356/P.2022.4.16
摘要:
光伏功率的不稳定因素主要由太阳辐照度波动引起,有必要对区域太阳辐照度波动特征进行分析研究,可为太阳辐照度预测和发电计划的制定提供理论基础依据。通过利用乌干达布库津杜太阳能热电混合电站2020年1月、3月、11-12月的太阳辐照度监测数据,基于MATLAB方法,对该电站的太阳辐照度波动的频次、斜率和持续时间进行分析研究,探明该地区太阳能辐照度的变化特征。结果表明,乌干达辐照度波动在旱季比雨季更频繁,下午的波动频次高于上午;非晴天高斜率波动事件多于晴天,但晴天也可能出现高斜率波动事件;乌干达大多数辐照度波动持续不到5min。
Abstract:
The instability factor of photovoltaic power is mainly caused by solar irradiance fluctuation. It is necessary to analyze and study the characteristics of regional solar irradiance fluctuation, which can provide the theoretical basis for solar irradiance prediction and power generation plan formulation. By using the solar irradiance monitoring data of the solar hybrid power Station in Bukuzindu, Uganda in January, March, and November-December 2020, the frequency, slope, and duration of solar irradiance fluctuations of the station were analyzed and studied based on the MATLAB method, and the variation characteristics of solar irradiance in this region were explored. The results showed that the frequency of irradiance fluctuations in the dry season was higher than that in the rainy season, and the fluctuation frequency was higher in the afternoon than in the morning. There were more high-slope fluctuation events on non-sunny days than on sunny days, but high-slope fluctuation events were likely to occur on sunny days. Most irradiance fluctuations in Uganda lasted less than 5 minutes.

参考文献/References:

[1] 王青,江华,李嘉彤,等. 中国及全球光伏产业发展形势分析[J]. 太阳能,2022(11):5-10.
[2] 高忠旭,李仕杰,范骏杰. 分布式光伏电源对配电网电压的影响与改善[J]. 科技与创新,2017(9):57.
[3] IRENA I. Prospects for the African power sector[D]. International Renewable Energy Agency:Scenarios and strategies for Africa project, 2011.
[4] 王爽. 南非国家电力市场投资研究[J]. 国际工程与劳务,2022(11):55-58.
[5] Miketa A. Africa 2030:Roadmap for a renewable energy future[D]. Abu Dhabi, 2015.
[6] 邹松.非洲发展可再生能源潜力巨大[N].人民日报,2022-06-14(017).
[7] Quansah D A, Adaramola M S and Mensah L D.Solar photovoltaics in sub-Saharan Africa-addressing barriers, unlocking potential[J].2016.
[8] 李志明,曹峻桤. 分布式光伏提水系统在非洲农村的应用分析[J]. 国际工程与劳务,2022(8):84-86.
[9] Lei Y, Lu X, Shi M,et al. SWOT analysis for the development of photovoltaic solar power in Africa in comparison with China[J]. Environmental Impact Assessment Review, 2019(77):122-127.
[10] Adaramola M S, Paul S S and Oyewola O M. Assessment of decentralized hybrid PV solar-diesel power system for applications in Northern part of Nigeria[J]. Energy for Sustainable Development, 2014(19):72-82.
[11] Mandelli S, Barbieri J, Mereu R, et al. Off-grid systems for rural electrification in developing countries:Definitions, classification and a comprehensive literature review[J]. Renewable and Sustainable Energy Reviews, 2016(58):1621-1646.
[12] 温鑫,姚文莹,何圣川,等. 分布式光伏接入对系统电能质量的影响分析与应对措施[J]. 机电信息,2022(23):22-24.
[13] 钟俊琛. 新能源并网对电能质量的影响及改进对策分析[J]. 光源与照明,2022(6):220-222.
[14] 吴鹏. 新能源并网对电力系统电能质量的影响[J]. 光源与照明,2022(3):246-248.
[15] 黄瑶玲,杨楠,刘浔,等. 分布式光伏电源接入对配电网影响[J]. 电工材料,2022(1):78-80.
[16] Tan L and Jiang J. Digital signal processing:fundamentals and applications[D]. Academic Press, 2018.
[17] 袁云梅,李晶,多化琼. MATLAB在电路分析基础中的应用研究[J]. 自动化应用,2022(7):166-168.
[18] 杨隽铠,胡秉谊. MATLAB在电路分析与计算中的应用[J]. 电脑知识与技术,2022,18(11):114-117.
[19] Omran W A, Kazerani M, and Salama M. A study of the impacts of power fluctuations generated from large PV systems[J]. In:2009 IEEE PES/IAS Conference on Sustainable Alternative Energy (SAE):IEEE, 2009:1-6.

备注/Memo

备注/Memo:
收稿日期:2022-06-24。
作者简介:凌俪嘉(1996-),硕士,助教,主要从事新能源与环境科学教学与研究。E-mail:linglijia0310@163.com
更新日期/Last Update: 1900-01-01