Generation Scheduling of a Hydrothermal System Considering Multiple Provincial Peak-Shaving Demands

Shen, Jianjian; Shen, Qianqian; Wang, Sen; Lu, Jian‐yu; Meng, Qingxi

doi:10.1109/access.2019.2906831

Cited by 23 publications

(15 citation statements)

References 31 publications

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“…This technique is a conventional method that ensures contract requirements but easily leads to the same power transmission profiles for all receivers. Such operational schedules are irrational or inefficient because of greatly different load demands among power grids [31,32]. More specifically, the differences in the daily load curves of these power grids are reflected in the magnitude, peak value, peak number, and times of the peak and light loads, which require various hydropower generations to respond to their respective electrical demands.…”

Section: Unreasonable Hydropower Allocation Among Multiple Power Gridsmentioning

confidence: 99%

Overview of China's hydropower absorption: evolution, problems, and suggested solutions

Shen

Cheng

Shen

et al. 2019

IET Renewable Power Generation

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China has experienced an unprecedented increase in hydropower development with the implementation of the 'West-East Electricity Transfer' project. Its total hydropower capacity has reached 350 GW, of which nearly one-third is transmitted to the load centre through an ultra-high-voltage power network. However, the absorption of abundant hydropower in southwest China is still a challenge, with increasing hydropower curtailment each year. This study provides an overview of the evolution of hydropower absorption, analyses the major problems and possible causes, and suggests several technical solutions. It is suggested to optimise the generation operations with power network limitations and transmission schedules to make full use of transmission channels and improve operational flexibility. Meanwhile, receiving power grids should coordinate the operations between southwestern hydropower and their local plants, and hydropower allocation among subordinate power grids. The differences in operation characteristics, regulation ability, and load demands will be helpful for efficiently absorbing large-scale outer hydropower. Reasonable economic incentives and compensation mechanisms are considered as another method to alleviate hydropower curtailment. Ancillary service market and discrepant electricity prices during different receivers and different periods are suggested. The overall analysis results indicate that there is great space for promoting hydropower absorption under existing transmission channel conditions.

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Section: Unreasonable Hydropower Allocation Among Multiple Power Gridsmentioning

confidence: 99%

Overview of China's hydropower absorption: evolution, problems, and suggested solutions

Shen

Cheng

Shen

et al. 2019

IET Renewable Power Generation

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show abstract

“…Dimitra et al [12] propose an optimal dispatch scheme for a hydroelectric system coupled with solar generation, and the simulation results verify the coupling of hydropower and solar power is beneficial due to the negative correlation of rain and sunshine. Shen et al [13] presents a methodology for hydrothermal system generation scheduling considering multiple provincial peak-shaving demands. Zhang et al [14] coordinate optimal operation of hydrowind-solar integrated systems by modelling the uncertainties of wind and solar power represented through the generation of typical scenarios.…”

Section: Introductionmentioning

confidence: 99%

A Short-Term Optimal Scheduling Model for Wind-Solar-Hydro Hybrid Generation System With Cascade Hydropower Considering Regulation Reserve and Spinning Reserve Requirements

et al. 2021

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“…In [12], A methodology is developed for hydrothermal system generation scheduling in multiple provincial peak regulation demands by utilizing a novel load subsection optimization model to smooth local frequent load fluctuations. A peak regulation apportioning compensation approach with K-means employed to group and apportion units was first researched, the conclusion summarized that more units could be encouraged to participate in peak regulation via the proposed model [13].…”

Section: Introductionmentioning

confidence: 99%

Unit Commitment Comprehensive Optimal Model Considering the Cost of Wind Power Curtailment and Deep Peak Regulation of Thermal Unit

Yang¹,

Cao²,

Cai

et al. 2020

IEEE Access

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Clean renewable energy is given high priority to generate power in power system dispatching. Unfortunately, the objective to minimize wind power curtailment may results in additional costs, since the inverse peak regulation characteristic of wind power probably result in redundant power qualities curtailed to ensure the balance of the electric supply and demand in real time. In this paper, considering the cost of deep peak regulation of thermal unit and wind power curtailment, unit commitment comprehensive optimal model is proposed to minimize total cost by searching the optimal wind power curtailment. In order to achieve an economic strategy among the wind power curtailment and the deep peak regulation, two indexes including the amount of hourly optimal wind power curtailment and the critical value of comprehensive wind power curtailment are developed. Particle swarm optimization algorithm is employed for solving the proposed model. Afterwards, the relationship between the degree of deep peak regulation and the amount of wind power curtailment is researched, the derived conclusions can provide valuable information for system operators. INDEX TERMS Wind power curtailment, deep peak regulation, unit commitment comprehensive optimal model, particle swarm optimization algorithm, system operators.

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Generation Scheduling of a Hydrothermal System Considering Multiple Provincial Peak-Shaving Demands

Cited by 23 publications

References 31 publications

Overview of China's hydropower absorption: evolution, problems, and suggested solutions

Overview of China's hydropower absorption: evolution, problems, and suggested solutions

A Short-Term Optimal Scheduling Model for Wind-Solar-Hydro Hybrid Generation System With Cascade Hydropower Considering Regulation Reserve and Spinning Reserve Requirements

Unit Commitment Comprehensive Optimal Model Considering the Cost of Wind Power Curtailment and Deep Peak Regulation of Thermal Unit

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