Active distribution network expansion planning integrating dispersed energy storage systems
This study proposes the convex model for active distribution network expansion planning integrating dispersed energy storage systems (DESS). Four active management schemes, distributed generation (DG) curtailment, demand side management, on-load tap changer tap adjustment and reactive power compensa...
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| Veröffentlicht in: | IET generation, transmission & distribution Jg. 10; H. 3; S. 638 - 644 |
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| Format: | Journal Article |
| Sprache: | Englisch |
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The Institution of Engineering and Technology
18.02.2016
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| ISSN: | 1751-8687, 1751-8695 |
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| Abstract | This study proposes the convex model for active distribution network expansion planning integrating dispersed energy storage systems (DESS). Four active management schemes, distributed generation (DG) curtailment, demand side management, on-load tap changer tap adjustment and reactive power compensation are considered. The optimisation of DESS for peak shaving and operation cost decreasing is also integrated. The expansion model allows alternatives to be considered for new wiring, new substation, substation expansion and DG installation. The distribution network expansion planning (DNEP) problem is a mixed integer non-linear programming problem. Active management and uncertainties especially with the DG integration make the DNEP problem much complex. To find the suitable algorithm, this study converts the DNEP problem to a second-order cone programming model through distflow equations and constraints relaxation. A modified 50-bus application example is used to verify the proposed model. |
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| AbstractList | This study proposes the convex model for active distribution network expansion planning integrating dispersed energy storage systems (DESS). Four active management schemes, distributed generation (DG) curtailment, demand side management, on-load tap changer tap adjustment and reactive power compensation are considered. The optimisation of DESS for peak shaving and operation cost decreasing is also integrated. The expansion model allows alternatives to be considered for new wiring, new substation, substation expansion and DG installation. The distribution network expansion planning (DNEP) problem is a mixed integer non-linear programming problem. Active management and uncertainties especially with the DG integration make the DNEP problem much complex. To find the suitable algorithm, this study converts the DNEP problem to a second-order cone programming model through distflow equations and constraints relaxation. A modified 50-bus application example is used to verify the proposed model. |
| Author | Cheng, Haozhong Zhang, Yi Zeng, Pingliang Xing, Haijun |
| Author_xml | – sequence: 1 givenname: Haijun surname: Xing fullname: Xing, Haijun email: xinghj_601@126.com organization: 1Department of Electric Engineering, Shanghai Jiao Tong University, Minhang District, Shanghai 200240, People's Republic of China – sequence: 2 givenname: Haozhong surname: Cheng fullname: Cheng, Haozhong organization: 1Department of Electric Engineering, Shanghai Jiao Tong University, Minhang District, Shanghai 200240, People's Republic of China – sequence: 3 givenname: Yi surname: Zhang fullname: Zhang, Yi organization: 2State Grid Fujian Electric Power Research Institute, Fuzhou, Fujian Province 350007, People's Republic of China – sequence: 4 givenname: Pingliang surname: Zeng fullname: Zeng, Pingliang organization: 3 China Electric Power Research Institute (CEPRI), Beijing 100085, People's Republic of China |
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| Copyright | The Institution of Engineering and Technology 2016 The Authors. IET Generation, Transmission & Distribution published by John Wiley & Sons, Ltd. on behalf of The Institution of Engineering and Technology |
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| Keywords | power generation planning integer programming power distribution planning power system management DNEP problem distributed power generation reactive power compensation dispersed energy storage system mixed integer nonlinear programming problem on-load tap changer tap adjustment energy storage relaxation theory active management scheme on load tap changers second-order cone programming model convex programming active distribution network expansion planning operation cost decrement peak shaving DG installation substation expansion distributed generation curtailment distflow equation generation curtailment reactive power constraint relaxation convex model demand side management DESS |
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| Snippet | This study proposes the convex model for active distribution network expansion planning integrating dispersed energy storage systems (DESS). Four active... |
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| SubjectTerms | active distribution network expansion planning active management scheme Algorithms Compensation constraint relaxation convex model convex programming demand side management DESS DG installation dispersed energy storage system distflow equation distributed generation curtailment distributed power generation Distribution management DNEP problem Energy storage generation curtailment integer programming Management mixed integer nonlinear programming problem Networks on load tap changers on‐load tap changer tap adjustment operation cost decrement peak shaving power distribution planning power generation planning power system management Programming reactive power reactive power compensation relaxation theory second‐order cone programming model Special Issue: Optimal Utilisation of Storage Systems in Transmission and Distribution Systems substation expansion Substations |
| Title | Active distribution network expansion planning integrating dispersed energy storage systems |
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