Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory

Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory

In order to improve the utilization rate of water resources in the flood season of the reservoir effectively and promote wind power consumption, this paper proposes an optimization model for the combined dispatching of wind power and hydropower based on the hedging theory. First, the conflicting rel...

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Main Authors: Kaoshe Zhang, Mengyan Xie, Gang Zhang, Tuo Xie, Xin Li, Xin He
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Water
Subjects:
multi-target hedging
joint operation
water and wind complementation
wind power consumption
comprehensive benefits
Online Access:https://www.mdpi.com/2073-4441/13/9/1319
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spelling doaj-ab85fc8411f7430190e039b3365ac4c32021-05-31T23:31:59ZengMDPI AGWater2073-44412021-05-01131319131910.3390/w13091319Combined Dispatching of Hydropower and Wind Power Based on the Hedging TheoryKaoshe Zhang0Mengyan Xie1Gang Zhang2Tuo Xie3Xin Li4Xin He5State Key Laboratory of Eco-Hydraulics in Northwest Arid Region, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Electrical Engineering, Xi’an University of Technology, Xi’an 710048, ChinaState Key Laboratory of Eco-Hydraulics in Northwest Arid Region, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Electrical Engineering, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Electrical Engineering, Xi’an University of Technology, Xi’an 710048, ChinaState Grid Gansu Electric Power Company, Gansu Electric Power Research Institute, Lanzhou 730050, ChinaIn order to improve the utilization rate of water resources in the flood season of the reservoir effectively and promote wind power consumption, this paper proposes an optimization model for the combined dispatching of wind power and hydropower based on the hedging theory. First, the conflicting relationship between the water storage benefits of hydropower stations, flood control risks, and the joint output of hydropower and wind power in joint dispatching is studied. The introduction of hedging theory divides the combined dispatching of wind power and hydropower into a two-stage dispatching problem including the decision-making stage and the remaining stage; Second, considering the uncertainty of water forecasting and wind power forecasting, a multi-objective optimal dispatching model of hydropower and wind power based on hedging theory is constructed. This model aims to minimize flood control risks, maximize water storage benefits, and minimize wind power and hydropower combined power output volatility. Finally, the non-dominated sorting genetic algorithm (NSGA2) is used to solve the specific examples. The results show that the model built in the article controls the flood control risk at each time period not to be higher than 1.63 × 10<sup>−3</sup> (the flood control standard corresponding to the flood control risk in 50 years is 0.006). Additionally, the water level of the reservoir increased from the flood limit water level (583.00 m) to 583.70 m. It greatly increases the water storage capacity and effectively improves the utilization rate of water resources. At the same time, the optimized scheduling scheme reduced the peak-valley difference of joint output from 125.00 MW to 35.66 MW, and the peak-valley difference was greatly reduced. It effectively improves the volatility of wind power. The validity of the model is verified, and the obtained scheme can provide decision-making for the joint dispatch scheme of hydropower and wind power.https://www.mdpi.com/2073-4441/13/9/1319multi-target hedgingjoint operationwater and wind complementationwind power consumptioncomprehensive benefits
collection DOAJ
language English
format Article
sources DOAJ
author Kaoshe Zhang
Mengyan Xie
Gang Zhang
Tuo Xie
Xin Li
Xin He
spellingShingle Kaoshe Zhang
Mengyan Xie
Gang Zhang
Tuo Xie
Xin Li
Xin He
Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
Water
multi-target hedging
joint operation
water and wind complementation
wind power consumption
comprehensive benefits
author_facet Kaoshe Zhang
Mengyan Xie
Gang Zhang
Tuo Xie
Xin Li
Xin He
author_sort Kaoshe Zhang
title Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
title_short Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
title_full Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
title_fullStr Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
title_full_unstemmed Combined Dispatching of Hydropower and Wind Power Based on the Hedging Theory
title_sort combined dispatching of hydropower and wind power based on the hedging theory
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2021-05-01
description In order to improve the utilization rate of water resources in the flood season of the reservoir effectively and promote wind power consumption, this paper proposes an optimization model for the combined dispatching of wind power and hydropower based on the hedging theory. First, the conflicting relationship between the water storage benefits of hydropower stations, flood control risks, and the joint output of hydropower and wind power in joint dispatching is studied. The introduction of hedging theory divides the combined dispatching of wind power and hydropower into a two-stage dispatching problem including the decision-making stage and the remaining stage; Second, considering the uncertainty of water forecasting and wind power forecasting, a multi-objective optimal dispatching model of hydropower and wind power based on hedging theory is constructed. This model aims to minimize flood control risks, maximize water storage benefits, and minimize wind power and hydropower combined power output volatility. Finally, the non-dominated sorting genetic algorithm (NSGA2) is used to solve the specific examples. The results show that the model built in the article controls the flood control risk at each time period not to be higher than 1.63 × 10<sup>−3</sup> (the flood control standard corresponding to the flood control risk in 50 years is 0.006). Additionally, the water level of the reservoir increased from the flood limit water level (583.00 m) to 583.70 m. It greatly increases the water storage capacity and effectively improves the utilization rate of water resources. At the same time, the optimized scheduling scheme reduced the peak-valley difference of joint output from 125.00 MW to 35.66 MW, and the peak-valley difference was greatly reduced. It effectively improves the volatility of wind power. The validity of the model is verified, and the obtained scheme can provide decision-making for the joint dispatch scheme of hydropower and wind power.
topic multi-target hedging
joint operation
water and wind complementation
wind power consumption
comprehensive benefits
url https://www.mdpi.com/2073-4441/13/9/1319
work_keys_str_mv AT kaoshezhang combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
AT mengyanxie combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
AT gangzhang combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
AT tuoxie combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
AT xinli combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
AT xinhe combineddispatchingofhydropowerandwindpowerbasedonthehedgingtheory
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