考虑多重出力不确定性的风光装机容量优化

doi:10.6040/j.issn.1672-3961.0.2018.289

山东大学学报 (工学版) ›› 2018, Vol. 48 ›› Issue (6): 101-108.doi: 10.6040/j.issn.1672-3961.0.2018.289

考虑多重出力不确定性的风光装机容量优化

宋士瞻¹(),王传勇¹,康文文¹,张健¹,闫红华^2,*(),李鹏²

1. 国网山东省电力公司枣庄供电公司, 山东枣庄 277800
2. 山东国瑞电力科技有限公司, 山东济南 250061

收稿日期:2018-07-12 出版日期:2018-12-20 发布日期:2018-12-26
通讯作者: 闫红华 E-mail:15266172927@163.com;sdgrtech@163.com
作者简介:宋士瞻(1966—)，男，山东滕州人，高级工程师，硕士，研究方向为电力系统及其自动化. E-mail:15266172927@163.com
基金资助:
国网山东省电力公司科技项目(2017A82)

Wind and PV installed capacity optimization with hybrid uncertainty of renewable energy

Shizhan SONG¹(),Chuanyong WANG¹,Wenwen KANG¹,Jian ZHANG¹,Honghua YAN^2,*(),Peng LI²

1. State Grid Zaozhuang Power Supply Company, Zaozhuang 277800, Shandong, China
2. Shandong Green Power Tech Co., Ltd., Jinan 250061, Shandong, China

Received:2018-07-12 Online:2018-12-20 Published:2018-12-26
Contact: Honghua YAN E-mail:15266172927@163.com;sdgrtech@163.com
Supported by:
国网山东省电力公司科技项目(2017A82)

摘要/Abstract

摘要：

挖掘风电和光伏出力的日特性和月特性,构建基于日特性和月特性的风电/光伏序列模型,通过蒙特卡洛模拟方法,生成多条风电和光伏出力序列,以刻画风/光出力的多重不确定性。考虑风电和光伏多重不确定性出力约束、电力电量平衡约束、允许弃风弃光率约束等,构建风电和光伏收益最大模型,优化风电和光伏装机,保证风电和光伏运行的经济性,实现风电和光伏有序发展。仿真算例表明,在不同的允许弃风弃光率下,风电和光伏的最优装机差异较大,受光伏日特性和装机成本高的影响,只有在弃光率较小且光伏装机容量小的场景下,光伏发电才具有较好的经济效益。

关键词: 新能源, 风光序列建模, 弃风弃光, 最优规划

Abstract:

By mining the daily and monthly characteristics of renewable energy, a time series model of wind and PV was presented. Through the Monte Carlo method, several wind and PV time series were produced to depict the hybrid uncertainty of the wind and PV. Based on the hybrid uncertainty constraints of wind and PV, power balance constraint and allowed wind and PV curtailment rate, etc., the profit maximum model of renewable was proposed to optimize the installed capacities of wind power and PV, to ensure the operation economics of wind power and photovoltaic system. The simulations showed that under different allowed wind and PV curtailment rates, the optimal installation capacities of wind power and PV varied significantly. Due to the unique daily characteristics and high installation cost of PV system, the higher total revenue of PV could be achieved with lower curtailment rate and installation capacity of PV systems.

Key words: renewable energy, wind/PV time series model, wind/PV curtailment, optimizing planning

中图分类号:

TM615

宋士瞻,王传勇,康文文,张健,闫红华,李鹏. 考虑多重出力不确定性的风光装机容量优化[J]. 山东大学学报 (工学版), 2018, 48(6): 101-108.

Shizhan SONG,Chuanyong WANG,Wenwen KANG,Jian ZHANG,Honghua YAN,Peng LI. Wind and PV installed capacity optimization with hybrid uncertainty of renewable energy[J]. Journal of Shandong University(Engineering Science), 2018, 48(6): 101-108.

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限电率/%	风电装机/ MW	光伏装机/ MW	风电理论电量/(GWh)	光伏理论电量/ (GWh)	风电实发电量/ (GWh)	光伏实发电量/ (GWh)	总收益/ 万元
0	34.77	4.62	64.90	4.75	64.90	4.75	3 362
1	43.00	24.96	80.25	25.65	79.19	25.65	5 008
5	54.68	37.18	102.05	38.21	95.04	38.21	6 303
10	66.53	45.60	124.17	46.85	107.07	46.85	7 197
15	78.73	51.30	146.95	52.71	117.05	52.66	7 836
30	123.26	58.83	230.05	60.45	143.47	59.88	8 942
40	164.91	58.90	307.79	60.52	161.04	59.94	9 280
45	192.85	58.87	359.95	60.49	169.84	59.92	9 334
50	221.87	58.16	414.10	59.76	177.66	59.27	9 288
60	305.00	55.70	569.26	57.23	193.63	56.97	8 771
70	440.50	50.66	822.15	52.06	210.24	52.02	7 331

序号	风电装机成本/(元/kW)	风电电价/(元/kWh)	光伏装机成本/(元/kW)	光伏电价/(元/kWh)	总收益/万元	风电装机/MW	光伏装机/MW
1	3 000	0.57	9 000	0.85	10 416	229.94	61.33
2	4 000	0.57	10 000	0.85	9 334	192.85	58.87
3	5 000	0.57	12 000	0.85	8 180	170.56	48.67
4	3 000	0.40	9 000	0.65	6 265	186.37	53.55
5	4 000	0.40	10 000	0.75	5 969	146.97	64.56
6	5 000	0.40	12 000	0.85	5 566	122.50	66.43
7	3 000	0.57	9 000	0.65	9 732	272.54	0
8	4 000	0.57	10 000	0.75	8 834	207.64	34.70
9	5 000	0.57	12 000	0.85	8 180	170.56	48.67

序号	光伏装机成本/(元/kW)	光伏电价/(元/kWh)	总收益/万元	光伏装机/MW
1	9 000	0.85	3 736	102.24
2	10 000	0.85	3 340	95.98
3	12 000	0.85	2 615	85.64
4	9 000	0.75	2 880	94.69
5	10 000	0.75	2 513	88.72
6	12 000	0.75	1 843	78.76
7	9 000	0.65	2 061	86.83
8	10 000	0.65	1 726	81.21
9	12 000	0.65	1 126	69.15

考虑多重出力不确定性的风光装机容量优化

Wind and PV installed capacity optimization with hybrid uncertainty of renewable energy

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