Peak-shift Optimization Model and Pricing Strategies of Power Trading System in Bay Area

AbstractIn this work we address the problem of optimizing collective profitability in semi-competitive intermediation networks defined as augmented directed acyclic graphs. Network participants are modeled as autonomous agents endowed with private utility functions. We introduce a mathematical optimization model for defining pricing strategies of network participants. We employ welfare economics aiming to maximize the Nash social welfare of the intermediation network. The paper contains mathematical results that theoretically prove the existence of such optimal strategies. We also discuss computational results that we obtained using a nonlinear convex numerical optimization package.

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Designing the cross-border power trading system for West African Power Pool

2009 Transmission & Distribution Conference & Exposition: Asia and Pacific ◽

10.1109/td-asia.2009.5356860 ◽

2009 ◽

Cited By ~ 1

Author(s):

Jinsu Lee ◽

Hyosang Lee ◽

Sunghak Kim

Keyword(s):

West African ◽

Trading System ◽

Power Pool ◽

Cross Border ◽

Power Trading ◽

The Cross

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Development of a cooperative power trading system using satisfaction space technology

Artificial Life and Robotics ◽

10.1007/s10015-008-0709-z ◽

2009 ◽

Vol 14 (1) ◽

pp. 7-11

Author(s):

Tomoaki Maruo ◽

Keinosuke Matsumoto ◽

Naoki Mori

Keyword(s):

Space Technology ◽

Trading System ◽

Power Trading ◽

Cooperative Power

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Implementation of blockchain-based energy trading system

Asia Pacific Journal of Innovation and Entrepreneurship ◽

10.1108/apjie-12-2017-037 ◽

2017 ◽

Vol 11 (3) ◽

pp. 322-334 ◽

Cited By ~ 12

Author(s):

Se-Chang Oh ◽

Min-Soo Kim ◽

Yoon Park ◽

Gyu-Tak Roh ◽

Chin-Woo Lee

Keyword(s):

Design Methodology ◽

Experimental Results ◽

Trading System ◽

Energy Trading ◽

Content Type ◽

Trading Systems ◽

Blockchain Technology ◽

Power Trading ◽

Node Connectivity ◽

Exchange Transactions

Purpose The centralized processes of today’s power trading systems are complex and pose a risk of price tampering and hacking. The decentralized and unmodifiable nature of the blockchain technology that has recently been highlighted offers the potential to improve this power trading process. The purpose of this study is to implement a system to apply the blockchain technology to the problem of power trading. Design/methodology/approach The authors modeled the power trading problem as the interaction between admin, producer and consumer nodes. And a power trading scenario has been created for this model using a blockchain platform called Multichain which is both fast and highly scalable. To verify this scenario, they implemented a trading system using Savoir, a Python-based JsonRPC module. Findings Experimental results show that all processes, such as blockchain creation, node connectivity, asset issuance and exchange transactions have been correctly handled according to the scenario. Originality/value In this study, the authors have proposed and implemented a power trading method that determines price according to the pure market principle and cannot be manipulated or hacked. It is based on the nature of blockchain technology that is decentralized and cannot be tampered.

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Distributed Power Trading System Based on Blockchain Technology

Complexity ◽

10.1155/2021/5538195 ◽

2021 ◽

Vol 2021 ◽

pp. 1-12

Author(s):

Shuguo Chen ◽

Weibin Ding ◽

Zhongzheng Xiang ◽

Yuanyuan Liu

Keyword(s):

Power Supply ◽

Electricity Market ◽

Price Competition ◽

Supply And Demand ◽

Supply Side ◽

Business Systems ◽

Trading System ◽

Adaboost Algorithm ◽

Blockchain Technology ◽

Power Trading

The power trading system has the characteristics of nonlinearity, dynamics, and complexity. Part of the business data in the trading system needs to be exposed to numerous external business systems. The traditional centralized power trading model has some problems, such as low data security and trust crisis of regulators. Blockchain technology provides prominent ideas for solving these problems. Firstly, the improved AdaBoost algorithm is used to predict the supply and demand gap of power trading nodes. Secondly, based on the fact that the information on the blockchain is only open to the power supply side, a two-stage game model of asymmetric information between the power supply side and the power user is constructed to capture the price competition behavior between them in order to find the Nash equilibrium price in two stages. Finally, the US PJM market electricity market data are used to carry out an example analysis to verify the effectiveness of the algorithm and model.

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Research on the application of block chain technology in electricity trading system

E3S Web of Conferences ◽

10.1051/e3sconf/202018501074 ◽

2020 ◽

Vol 185 ◽

pp. 01074

Author(s):

Qingli Hao ◽

Ning Mi ◽

Ning Qiao ◽

Chao Zhang ◽

Can Li ◽

...

Keyword(s):

Power Market ◽

Research Direction ◽

Trading System ◽

Electricity Trading ◽

Power Trading ◽

Block Chain ◽

New Research ◽

Technical Basis

As the technical basis of Bitcoin, block chain has the characteristics of decentralization ， openness and transparency. In order to promote the development of security and openness of power trading system and solve the trust problem among participants in power market，a new research direction of power trading method based on block chain is proposed. Therefore，this paper outlines the block chain，explains the definition and characteristics of block chain in detail，discusses the application of block chain in power trading system，and summarizes the challenges faced by block chain technology in power trading system.

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