袁泉,李豹,王巍,周鑫,张蔷,孙宇军,陈潇婷
YUAN Quan,LI Bao,WANG Wei,ZHOU Xin,ZHANG Qiang,SUN Yujun,CHEN Xiaoting

• 1:中国南方电网电力调度控制中心
• 2:北京清能互联科技有限公司

摘要(Abstract)：

交直流互联电网的送受关系复杂，电网运行调控的约束众多，使得完全依赖人工经验来判断送受电计划调整空间的难度较大。为适应市场化交易对于跨省送受电计划调整提出的精细化要求，提出了一种跨省输电功率可行域的分析方法。首先，根据交直流互联电网的运行特点，对调度可行域所含的运行约束进行拓展建模。然后，构建跨省输电功率可行域模型，并采用有序顶点搜索法进行求解。最后，基于南方区域电网的实际运行场景展开算例分析，并利用全网调度优化模型的计算结果验证了跨省输电功率可行域的有效性。依据可行域的计算结果可以获知特定送受场景下跨省输电功率的限值范围，从而为中长期送受电计划校核调整提供参考依据。
The relationship between power transmission and reception in AC/DC interconnected power grids is complex, with numerous constraints on grid operation and regulation. Therefore, relying solely on manual expertise to assess the adjustment of power transmission and reception plans presents significant challenges. In response to the precise requirements of market-oriented transactions for adjusting interprovincial power transmission and reception plans, a method for analyzing the feasible domain of interprovincial transmission power is proposed. Firstly, based on the operational characteristics of AC/DC interconnected power grids, the modeling of operational constraints within the feasible scheduling domain is expanded. Subsequently, a model for the feasible domain of interprovincial transmission power is constructed, and solved using the ordered vertex search method. Finally, case studies are conducted based on the actual operational scenarios of the regional power grid in the south, and the effectiveness of the feasible domain for interprovincial transmission power is validated using the computational results of the entire network scheduling and optimization model. The calculation results of the feasible domain provide insight into the limit range of interprovincial transmission power under specific transmission and reception scenarios, thereby providing a reference basis for the verification and adjustment of medium to long-term power transmission and reception plans.

关键词(KeyWords)： 交直流互联;跨省输电功率;可行域;中长期
AC/DC interconnection;interprovincial transmission power;feasible domain;medium and long-term

Abstract:

Keywords:

基金项目(Foundation): 中国南方电网有限责任公司科技项目（ZDKJXM20200050）

作者(Author): 袁泉,李豹,王巍,周鑫,张蔷,孙宇军,陈潇婷
YUAN Quan,LI Bao,WANG Wei,ZHOU Xin,ZHANG Qiang,SUN Yujun,CHEN Xiaoting

DOI: 10.19585/j.zjdl.202406002

参考文献(References)：

• [1]许丹，梁访，黄国栋，等.考虑多级调度的跨省区大电网安全约束经济调度模型[J].电力系统自动化，2019,43(22):94-100.XU Dan,LIANG Fang,HUANG Guodong,et al.Security constrained economic dispatch model of inter-provincial power grid considering multi-level dispatch[J]. Automation of Electric Power Systems,2019,43(22):94-100.
• [2]王奇，何鑫雨，何森，等.电力市场环境下两阶段交直流输电通道功率优化分配方法[J].南方电网技术，2023,17(4):38-48.WANG Qi,HE Xinyu,HE Sen,et al. A two-stage HVAC/HVDC transmission channel power optimal distribution method under the power market environment[J].Southern Power System Technology,2023,17(4):38-48.
• [3]许喆，陈玮，丁军策.两级交易模式下南方区域省间中长期交易机制优化路径[J].电力自动化设备，2022,42(3):175-181.XU Zhe,CHEN Wei,DING Junce.Optimization path of inter-provincial medium-and long-term transaction mechanism in Southern China under two-level transaction mode[J].Electric Power Automation Equipment,2022,42(3):175-181.
• [4]国家发展改革委，国家能源局.关于印发《电力中长期交易基本规则》的通知[EB/OL].(2020-06-10)[2023-08-02].https：//www. ndrc. gov. cn/xxgk/zcfb/ghxwj/202007/t20200701_1232843.html.
• [5]赵书强，胡利宁，田捷夫，等.基于中长期风电光伏预测的多能源电力系统合约电量分解模型[J].电力自动化设备，2019,39(11):13-19.ZHAO Shuqiang,HU Lining,TIAN Jiefu,et al.Contract power decomposition model of multi-energy power system based on mid-long term wind power and photovoltaic electricity forecasting[J]. Electric Power Automation Equipment,2019,39(11):13-19.
• [6]许彦平，黄越辉，李湃，等.计及优先级及电力平衡的新能源中长期交易电量分解方法[J].电力系统自动化，2021,45(17):117-125.XU Yanping,HUANG Yuehui,LI Pai,et al.Decomposition method for medium-and long-term trading electricity of renewable energy considering priority and power balance[J]. Automation of Electric Power Systems,2021,45(17):117-125.
• [7]张少华，刘帅，王晛，等.基于分布鲁棒优化的发电商中长期合同电量分解模型[J].电力系统保护与控制，2023,51(1):71-80.ZHANG Shaohua,LIU Shuai,WANG Xian,et al.A distributionally robust optimization model for power generators′medium and long-term contracted energy decomposition[J]. Power System Protection and Control,2023,51(1):71-80.
• [8]刘昊，郭烨，孙宏斌.中国跨区跨省电力交易综述及展望[J].电力系统自动化，2022,46(15):187-199.LIU Hao,GUO Ye,SUN Hongbin.Review and prospect of inter-regional and inter-provincial power trading in China[J].Automation of Electric Power Systems,2022,46(15):187-199.
• [9]章昊，王正风，周星宇，等.断面安全约束下发电可行域解析建模研究[J].浙江电力，2022,41(10):50-56.ZHANG Hao,WANG Zhengfeng,ZHOU Xingyu,et al.Analytical modeling study of feasible regions for power generation under cross-section safety constraints[J].Zhejiang Electric Power,2022,41(10):50-56.
• [10]周星宇，潘学萍，王正风，等.断面安全约束下发电可行域实用分析方法[J].中国电力，2020,53(12):183-189.ZHOU Xingyu,PAN Xueping,WANG Zhengfeng,et al.A practical method for analyzing feasible generation region under security constraint of key transmission line section[J].Electric Power,2020,53(12):183-189.
• [11]袁泉，孙宇军，张蔷，等.基于日前调度时段组合的联络线功率可行域分析[J].电网技术，2023,47(2):636-647.YUAN Quan,SUN Yujun,ZHANG Qiang,et al.Feasible region of tie-line capacity based on combination of dayahead dispatching time intervals[J].Power System Technology,2023,47(2):636-647.
• [12] TAN Z F,ZHONG H W,WANG J X,et al. Enforcing intra-regional constraints in tie-line scheduling:a projectionbased framework[J]. IEEE Transactions on Power Systems,2019,34(6):4751-4761.
• [13]张怀宇，夏清，张丙金，等.基于全局向局部运行空间投影的多级调度协同模式[J].电力系统自动化，2024,48(11):143-152.ZHANG Huaiyu,XIA Qing,ZHANG Bingjin,et al.Multilevel scheduling cooperative mode based on projection from global to local operating space[J]. Automation of Electric Power System,2024,48(11):143-152.
• [14] LIN W,YANG Z F,YU J,et al.Improving security and economy of interconnected power network through explicit feasible region of tie-line power transfer[J].International Journal of Electrical Power&Energy Systems,2020,123(12):106262.
• [15]谭振飞，阮广春，钟海旺，等.适应交易机构相对独立的双边交易安全预校核方法[J].电力系统自动化，2018,42(10):106-113.TAN Zhenfei,RUAN Guangchun,ZHONG Haiwang,et al. Security pre-check method of bilateral trading adapted to independence of power exchange[J]. Automation of Electric Power Systems,2018,42(10):106-113.
• [16]彭超逸，顾慧杰，朱文，等.交直流混联区域电网现货市场出清模型研究[J].电网技术，2020,44(1):323-331.PENG Chaoyi,GU Huijie,ZHU Wen,et al.Study on spot market clearing model of regional power grid considering AC/DC hybrid connection[J]. Power System Technology,2020,44(1):323-331.
• [17]唐翀，程兰芬，周保荣，等.区域电力现货市场差异化出清模型研究[J].电网技术，2023,47(6):2296-2307.TANG Chong,CHENG Lanfen,ZHOU Baorong,et al.Simulation of differential spot market clearing model in regional grid[J].Power System Technology,2023,47(6):2296-2307.
• [18]张廷营，陈玮，代红阳，等.现货条件下南方区域跨区跨省交易结算方法[J].广东电力，2020,33(8):130-136.ZHANG Tingying,CHEN Wei,DAI Hongyang,et al.A method for settlement of cross-regional and crossprovincial transactions in southern regions in China under spot conditions[J]. Guangdong Electric Power,2020,33(8):130-136.
• [19]张长伟，李德红，席慧，等.基于数据挖掘的水电机组振动区精细划分方法[J].浙江电力，2020,39(9):89-94.ZHANG Changwei,LI Dehong,XI Hui,et al. Fine division of vibration region of hydroelectric generating set based on data mining[J].Zhejiang Electric Power,2020,39(9):89-94.