Abstract
A large number of renewable energy and EVs (electric vehicles) are connected to the grid, which brings huge peak shaving pressure to the power system. If we can make use of the flexible characteristics of EVs and effectively aggregate the adjustable resources of EVs to participate in power auxiliary services, this situation can be alleviated to a certain extent. In this paper, a two-stage physical and economic adjustable capacity evaluation model of EVs for peak shaving and valley filling ancillary services is constructed. The main steps are as follows: with the help of the deep learning ability of the AC (Actor-Critic) algorithm, the optimal physical charging scheme of EV fleet is determined to minimize the grid fluctuation under the travel constraints of private EVs, and the optimized charging power is transferred to the second stage. In the second stage, load aggregators encourage users to participate in ancillary services by setting subsidy prices. In this stage, the model constructs a user decision model based on a logistic function to describe the probability of users accepting dispatching instructions. With the goal of maximizing the revenue of load aggregators, the wolf colony algorithm is used to solve the optimal solution of the time-sharing subsidy level, and finally the economic adjustable capacity of the EV fleet considering the subjective decision of users is obtained.
Highlights
With the strong support of policies, EVs have achieved rapid development which is of positive significance to the greenhouse gas emission reduction and air pollution prevention and control in the transportation industry
In order to solve this problem, there projects in the world that use the flexible adjustable potential of EVs to generate energy are some pilot projects in the world that use the flexible adjustable potential of EVs to exchange with the power grid, and expand the role of EVs from the field of transportation generate energy exchange with the power grid, and expand the role of EVs from the field to the two dimensions of transportation energy
We selected private EVs as the research object, and constructed a twostage physical economic and adjustable capacity evaluation model of EVs for peak load shaving and valley load filling in the ancillary service market
Summary
With the strong support of policies, EVs have achieved rapid development which is of positive significance to the greenhouse gas emission reduction and air pollution prevention and control in the transportation industry. The EV has strong adjustability, fast response speed and flexible adjustment mode [4,5,6,7] and its charging and discharging state can be directly controlled through the charging pile. After effective aggregation, it can provide multiple auxiliary services [8,9,10,11,12,13] and demandside response [14] for the power system; at the same time, EV users can obtain benefits by participating in the grid interaction [15,16], which is conducive to the benign development of the EV industry.
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