Transmission Planning Considering Market Power Mitigation in Electricity Market

被引：0

作者：

Shu J. ^{[1
]}

Han X. ^{[1
]}

Han B. ^{[2
]}

Li L. ^{[1
]}

机构：

[1] School of Electrical and Electronic Engineering, North China Electric Power University, Changping District, Beijing

[2] China Three Gorges Corporation, Haidian District, Beijing

来源：

Dianwang Jishu/Power System Technology | 2019年 / 43卷 / 10期

关键词：

Decomposition approach; Market power; Mixed-integer linear programming; Residual supply index; Transmission planning;

D O I：

10.13335/j.1000-3673.pst.2018.2731

中图分类号：

学科分类号：

摘要：

Transmission constraint has significant impact on market power in electricity market. From regulator's perspective, it is necessary to take market power mitigation into considerationat transmission planning stage. Given the market power test set, a novel transmission planning model considering market power mitigation is proposed by integrating transmission-constrained residual supply index into traditional transmission planning formulation. The objective function is to minimize total cost, including both investment and operation cost. The constraints include unit output, transmission and transmission-constrained residual supply index. The proposed model renders a complicated mixed-integer linear programming problem. To reduce computational burden for a practical large-scale system, a decomposition approach is proposed. The proposed approach is implemented on GAMS (general algebraic modeling system) platform and solved with CPLEX solver efficiently. Finally, effectiveness of theproposed method is verified through the case study based on the modified Garver 6 bus and Polish 2383 bus system. © 2019, Power System Technology Press. All right reserved.

引用

页码：3616 / 3621

页数：5

共 21 条

[1]

Bose S., Wu C., Xu Y., Et al., A unifying market power measure for deregulated transmission-constrained electricity markets, IEEE Transactions on Power Systems, 30, 5, pp. 2338-2348, (2015)

[2]

Zhang J., Zhang L., Yu L., Layered index system for evaluating the market power in electricity market, Proceedings of the CSEE, 26, 6, pp. 123-128, (2006)

[3]

Lou S., Wang Y., Lu S., Et al., Research on transmission network planning model based on risk cost under market environment, Electric Power, 48, 7, pp. 76-81, (2015)

[4]

Shu J., Wu L., Li Z., Et al., A new method for spatial power network planning in complicated environments, IEEE Transactions on Power Systems, 27, 1, pp. 381-389, (2012)

[5]

Zhan J., Chung C.Y., Zare A., A fast solution method for stochastic transmission expansion planning, IEEE Transactions on Power Systems, 32, 6, pp. 4684-4695, (2017)

[6]

Liu Z., Yu H., Wang S., Et al., Transmission grid planning considering operation efficiency and wind curtailment loss, Power System Technology, 42, 3, pp. 827-834, (2018)

[7]

Buygi M.O., Balzer G., Shanechi H.M., Et al., Market-based transmission expansion planning, IEEE Transactions on Power Systems, 19, 4, pp. 2060-2067, (2004)

[8]

De La Torre S., Conejo A.J., Contreras J., Transmission expansion planning in electricity markets, IEEE Transactions on Power Systems, 23, 1, pp. 238-248, (2008)

[9]

Wang Y., Tang Y., Dong Z., Hybrid criterion planning model for transmission system planning under electricity market environment, Power System Technology, 40, 7, pp. 2094-2100, (2016)

[10]

Hesamzadeh M.R., Biggar D.R., Hosseinzadeh N., Et al., Transmission augmentation with mathematical modeling of market power and strategic generation expansion-part I, IEEE Transactions on Power Systems, 26, 4, pp. 2040-2048, (2011)

← 1 2 3 →