Study of Long-Term Energy Storage System Capacity Configuration Based on Improved Grey Forecasting Model

Li, Jifang; Feng, Shuo; Zhang, Tao; Ma, Lidong; Shi, Xiaoyang; Zhou, Xingyao

doi:10.1109/access.2023.3265083

Cited by 3 publications

(1 citation statement)

References 37 publications

(80 reference statements)

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“…The combination of short lines, small impedance, and a rapid rise in fault current, along with the fact that a significant fault current can cause substantial damage to the system and jeopardize the safe operation of equipment, highlights the importance of ensuring that the system is adequately protected [2]. The source-storage integration DC microgrid is formed by connecting each distributed power source to the DC bus through the energy storage system, which can effectively suppress the fault current by switching the control method instead of adding extra current-limiting devices [3][4]. As an important link to maintain the stability of the microgrid, the planning of the installed capacity of the energy storage system is very necessary.…”

Section: Introductionmentioning

confidence: 99%

The Capacity Configuration of Energy Storage System in DC Microgrid with Source-storage Integration

Wei,

Li,

Guo

et al. 2023

J. Phys.: Conf. Ser.

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The occurrence of a fault in a DC microgrid can significantly jeopardize the system’s safe operation, making it a critical area of research for scholars. One key focus of this research is on developing methods to suppress the fault current, which has become a research hotspot for many scholars. Each distributed power source is connected to DC microgrid through a battery storage system to form a source-storage integration DC microgrid structure, which can have good fault current control ability and obvious improvement effect on reducing the protection technology difficulty of DC microgrid and enhancing the flexibility of distribution network. Compared with the traditional DC microgrid structure, the source-storage integration DC microgrid, whose battery storage system is changed from centralized to distributed, will smooth fluctuations in distributed power output by modifying energy storage planning principles, and also maintain bus voltage and realize fault current control with distributed power sources. Capacity planning principles for energy storage systems proposed in this paper were studied for DC microgrids with source-storage integration, and the total energy storage capacity and power under two DC microgrid structures were compared and analyzed with a scenic complementary power station as an example. Although a DC microgrid with a changed grid structure would require less than a 20% increase in the overall capacity and power of the energy storage system, according to the calculation results, the operation of the microgrid can be significantly improved, the flexibility of power dispatching of the distribution network was enhanced, and the investment cost of fault protection was reduced. Research into the capacity configuration of energy storage systems has demonstrated that DC microgrids with integrated source and storage capabilities hold significant engineering application value and practical significance.

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Section: Introductionmentioning

confidence: 99%

The Capacity Configuration of Energy Storage System in DC Microgrid with Source-storage Integration

Wei,

Li,

Guo

et al. 2023

J. Phys.: Conf. Ser.

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Investigating the Effect of Outliers in Historical-Data on Grey Prediction Model for Power System State Estimation

Samajdar,

Halder nee Dey

2023

2023 3rd International Conference on Emerging Frontiers in Electrical and Electronic Technologies (ICEFEET)

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Residential Electrical Long-Term Load Forecast Using Artificial Neural Network; Woji Estate 11/0.415 KV Feeder Port Harcourt, Nigeria

B. O.,

O. J.

2024

African Journal of Electrical and Electronics Research

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The essentiality of electric load forecast for the effective design and management of electric power systems has been achieved in this study. PHEDC may plan for infrastructure construction, resource allocation, and energy management by using accurate long-term load forecasts of this study. In the context of the Woji Estate 11/0.415 kV Feeder in Port Harcourt, Nigeria, we have discussed the use of artificial neural networks (ANNs) for a long-term of ten (10) years load forecasting in this paper starting from January 2020- December 2029. However, curve fitting feed-forward artificial neural network has been employed for the simulation on MATLAB 2020 environment, with six (6) input datasets obtained from Transmission Company of Nigeria (TCN), Oginigba and Port Harcourt Electricity Distribution Company, and average temperature dataset from NIMET-Abuja all in Nigeria from January, 2015-December, 2019. The regression plot of epoch 11 with training; R=1 and validation of 0.9999 have been achieved which indicates how efficient the training of the dataset was. The Levenberg-Marquardt (LM) algorithm is used as an optimization technique in this study. In addition, training, test, validation, and error analysis have been used to examine the effectiveness of the LM algorithm; it has been found optimal with ANN. The general observation shows that ANN provides effective results on long-term electrical load forecasting of the Woji Estate Feeder with a total forecasted value of 29734.4 MWHR and an average value of 24778.67 MWHR at the end of the tenth year.

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Study of Long-Term Energy Storage System Capacity Configuration Based on Improved Grey Forecasting Model

Cited by 3 publications

References 37 publications

The Capacity Configuration of Energy Storage System in DC Microgrid with Source-storage Integration

The Capacity Configuration of Energy Storage System in DC Microgrid with Source-storage Integration

Investigating the Effect of Outliers in Historical-Data on Grey Prediction Model for Power System State Estimation

Residential Electrical Long-Term Load Forecast Using Artificial Neural Network; Woji Estate 11/0.415 KV Feeder Port Harcourt, Nigeria

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