Affiliation:
1. School of Economics and Management, Changsha University of Science & Technology, Changsha, Hubei, P.R. China
2. School of Control and Computer Engineering, North China Electric Power University, Baoding, P.R. China
Abstract
Background:
With the large-scale grid connection operation of new or renewable energy
and the access of active loads such as electric vehicles and air conditioners, the electric energy
trading business in the power market faces problems such as the rapid expansion of the number of
market settlement subjects, explosive growth, various subjects responsible for deviation assessment,
various electric energy trading methods and so on.
Objective:
This paper focuses on the medium and long-term generation side power trading in the
new power market. Through cause analysis, induction and summary, algorithm design and case
analysis, the problem of generation side deviation prediction is solved and power waste is reduced.
Methods:
This paper puts forward the reasons for the imbalance of medium and long-term power
trading in the new power market dominated by new energy, as well as the deviation prediction
algorithm based on multi-layer LSTM, which brings the total historical deviation, total planned
deviation, total measurement deviation, new energy consumption and other data into the M-LSTM
deep learning network for testing in each provincial power market center.
Results:
We use the neural network prediction algorithm. Compared with a single LSTM, the
multi-layer LSTM can better maintain the characteristics of the sample time series and reduce the
prediction error. Compared with BPNN、M-BPNN and Cooperative game theory, LSTM has a
better memory effect.
Conclusion:
The experiment shows that the more accurate prediction deviation of this method can
better arrange the generation plan, reduce the loss caused by excessive deviation, reduce the "price
trampling" of the power market, and ensure the fair and efficient development of the power market.
Funder
2020 National Social Science Fund
State Grid Shanghai Municipal Electric Power Company Key scientific and technological projects
Publisher
Bentham Science Publishers Ltd.
Subject
Electrical and Electronic Engineering,Electronic, Optical and Magnetic Materials
Reference26 articles.
1. Fang Yu.; “Analysis on key problems of continuous operation in different periods in China’s medium and long-term power market”, Chi-na Electr. Power Enterprise Manag 2021,2021(19),53-54
2. Yang G.; Du S.; Duan Q.; Su J.; Multi-day load forecasting method in electricity spot markets based on multiple LSTMs 2021 3rd Asia Energy Electrical Engineering Symposium (AEEES), Chengdo, China, 2021
3. Wu Z.; Ming Z.; Kou Y.; Peibo S.; Jianxiao W.; Gengyin Li.; Research on unbalanced fund allocation mechanism based on ABM model. Power Grid Technol 2021,45(9),3408-3416
4. Fan X.; Xu X.; Lei S.; Le Y.; Tu M.; “Analysis on treatment method of base deviation in medium and long-term power market”, Pow-er Syst. Autom 2019,43(12),186-191
5. Yudantaka K.; Kim J-S.; Song H.; Dual deep learning networks based load forecasting with partial real-time information and its appli-cation to system marginal price prediction. Energies 2020,13(148),148