Your search keyword '"Weizhen Yong"' showing total 2 results

1. Optimal Dispatch of Virtual Power Plant with Distributed Renewable Energy Resources and Building Water Supply Systems

Author

Weizhen Yong, Jingdong Wei, Zilong Zhang, Minghui Zhu, Li Zhuang, and Yongqing Wang

Subjects

Flexibility (engineering), Virtual power plant, Wind power, Exploit, Linear programming, business.industry, Computer science, Distributed computing, Programming paradigm, business, Energy storage, Renewable energy

Abstract

With the rapid development of distributed renewable energy generation, the requirement of flexibility is also increasing. The traditional solution to increase flexibility is to conFigure energy storage. However, this method has some problems, such as high investment cost and large-area occupation. Therefore, it is a better method to fully exploit the flexibility of existing resources. This paper proposes an optimal dispatch method of the virtual power plant that aggregates distributed renewable energy resources and building water supply systems. It aims to explore the flexibility of building water supply systems. The proposed model is a mixed-integer non-linear programming model. Thus, a piecewise linearization method is applied to convert the proposed model to a mixedinteger linear programming model to make the model tractable. Simulation results show that the proposed method can not only increase operation economics of the virtual power plant but also enhance demand-side flexibility.

Published

2020

2. Real-Time Active Power Dispatch for Virtual Power Plant via a Multi-agent Leader-Follower Game Approach

Author

Jingdong Wei, Weizhen Yong, Fan Yang, Minghui Zhu, and Zilong Zhang

Subjects

Virtual power plant, Electricity generation, Power Balance, Incentive compatibility, Computer science, business.industry, Control engineering, Electricity, Bidding, AC power, business, Scheduling (computing)

Abstract

Due to the volatility of renewable energy and randomness of electricity load in virtual power plant (VPP), VPP will inevitably deviate from the pre-planned reference points in real-time operation process. Thus, real-time active power dispatch is essential to re-determine the power output of VPP’ components. Indeed, distributed resources of VPP often belong to different individuals. Coordinating various components of different individuals to participate in VPP realtime scheduling can realize incentive compatibility between VPP and individuals. To this end, this paper proposes real-time active power dispatch for VPP via a multi-agent leaderfollower game approach to achieve the purpose of real-time power balance and economic operation of VPP. In the multiagent leader-follower game, fuzzy control technology is used to generate bidding strategies for various individuals. Simulation results demonstrate the economy and effectiveness of the proposed real-time active power dispatching model for VPP.

Published

2020