Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty
Along with the wide-ranging addition of wind power into power systems, multiple uncertainties are produced due to continuous changes of wind power, which in turn will affect the dispatching and operational process of the power grid. In this process, excessive pursuit of the lowest risk of wind energ...
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| Format: | Article |
| Language: | English |
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China electric power research institute
2024-01-01
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| Series: | CSEE Journal of Power and Energy Systems |
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| Online Access: | https://ieeexplore.ieee.org/document/9770501/ |
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| author | Xiaoyu Shi Rong Jia Qiang Huang Guohe Huang Xuewen Lei Jiangfeng Li Bo Ming Zeqian Zhao Le Li |
| author_facet | Xiaoyu Shi Rong Jia Qiang Huang Guohe Huang Xuewen Lei Jiangfeng Li Bo Ming Zeqian Zhao Le Li |
| author_sort | Xiaoyu Shi |
| collection | DOAJ |
| description | Along with the wide-ranging addition of wind power into power systems, multiple uncertainties are produced due to continuous changes of wind power, which in turn will affect the dispatching and operational process of the power grid. In this process, excessive pursuit of the lowest risk of wind energy may bring an apparent influence on the economic effect of the multi-energy complementary power generation system because a continuous imbalance between demand and supply may lead to wind curtailment. To solve these issues, a new model that couples the multi-dimensional uncertainty model with the day-ahead complementary operation model is developed for a wind-hydro-thermal system. A multi-dimensional uncertainty model (MU) is used to deal with wind uncertainty because it can quantitatively describe the complex features of error distribution of hourly day-ahead wind power forecasting. The multi-dimensional interval scenes attained by the MU model can reflect hour-to-hour uncertain interaction in the day-ahead complementary operation for the wind-hydro-thermal system. This new model can make up for the shortcomings of the day-ahead operation model by reducing wind power risk and optimizing the operational costs. A two-layer nested approach with the hierarchical structure is applied to handle the wind-hydro-thermal system's complex equality and inequality constraints. The new model and algorithm's effectiveness can be evaluated by applying them to the Shaanxi Electric Power Company in China. Results demonstrated that: compared with the conventional operation strategies, the proposed model can save the operational cost of the units by 7.92 % and the hybrid system by 0.995 %, respectively. This study can offer references for the impact of renewable energy on the power grid within the context of the day-ahead electricity market. |
| format | Article |
| id | doaj-art-8b45308424e24e0bbe6e6d3c850fadc4 |
| institution | DOAJ |
| issn | 2096-0042 |
| language | English |
| publishDate | 2024-01-01 |
| publisher | China electric power research institute |
| record_format | Article |
| series | CSEE Journal of Power and Energy Systems |
| spelling | doaj-art-8b45308424e24e0bbe6e6d3c850fadc42025-08-20T02:52:34ZengChina electric power research instituteCSEE Journal of Power and Energy Systems2096-00422024-01-011062483249410.17775/CSEEJPES.2020.046909770501Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional UncertaintyXiaoyu Shi0Rong Jia1Qiang Huang2Guohe Huang3Xuewen Lei4Jiangfeng Li5Bo Ming6Zeqian ZhaoLe Li7Xi'an University of Technology,Xi'an,China,710048Xi'an University of Technology,Xi'an,China,710048Xi'an University of Technology,Xi'an,China,710048University of Regina,Regina,Canada,450000Xi'an University of Technology,Xi'an,China,710048Xi'an University of Technology,Xi'an,China,710048Xi'an University of Technology,Xi'an,China,710048Xi'an University of Technology,Xi'an,China,710048Along with the wide-ranging addition of wind power into power systems, multiple uncertainties are produced due to continuous changes of wind power, which in turn will affect the dispatching and operational process of the power grid. In this process, excessive pursuit of the lowest risk of wind energy may bring an apparent influence on the economic effect of the multi-energy complementary power generation system because a continuous imbalance between demand and supply may lead to wind curtailment. To solve these issues, a new model that couples the multi-dimensional uncertainty model with the day-ahead complementary operation model is developed for a wind-hydro-thermal system. A multi-dimensional uncertainty model (MU) is used to deal with wind uncertainty because it can quantitatively describe the complex features of error distribution of hourly day-ahead wind power forecasting. The multi-dimensional interval scenes attained by the MU model can reflect hour-to-hour uncertain interaction in the day-ahead complementary operation for the wind-hydro-thermal system. This new model can make up for the shortcomings of the day-ahead operation model by reducing wind power risk and optimizing the operational costs. A two-layer nested approach with the hierarchical structure is applied to handle the wind-hydro-thermal system's complex equality and inequality constraints. The new model and algorithm's effectiveness can be evaluated by applying them to the Shaanxi Electric Power Company in China. Results demonstrated that: compared with the conventional operation strategies, the proposed model can save the operational cost of the units by 7.92 % and the hybrid system by 0.995 %, respectively. This study can offer references for the impact of renewable energy on the power grid within the context of the day-ahead electricity market.https://ieeexplore.ieee.org/document/9770501/Complementary operationdeep learningmulti-dimensional uncertaintyrisk analysiswind-hydro-thermal systemwind driven optimization |
| spellingShingle | Xiaoyu Shi Rong Jia Qiang Huang Guohe Huang Xuewen Lei Jiangfeng Li Bo Ming Zeqian Zhao Le Li Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty CSEE Journal of Power and Energy Systems Complementary operation deep learning multi-dimensional uncertainty risk analysis wind-hydro-thermal system wind driven optimization |
| title | Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty |
| title_full | Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty |
| title_fullStr | Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty |
| title_full_unstemmed | Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty |
| title_short | Day-Ahead Complementary Operation for a Wind-Hydro-Thermal System Considering Multi-Dimensional Uncertainty |
| title_sort | day ahead complementary operation for a wind hydro thermal system considering multi dimensional uncertainty |
| topic | Complementary operation deep learning multi-dimensional uncertainty risk analysis wind-hydro-thermal system wind driven optimization |
| url | https://ieeexplore.ieee.org/document/9770501/ |
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