Abstract
New Energy Wide Area Complementary Planning Method for Multi-Energy Power System
Highlights
In order to cope with the shortage of fossil fuels, the aggravation of environmental pollution and global climate change and other important issues, vigorously developing non-fossil energy, especially new energy represented by wind and solar energy, has become a universal choice for countries around the world to formulate energy policies and promote clean energy transition[1].Photovoltaic power generation and wind power generation have little impact on the environment, have better long-term economics, so they are easier to be widely promoted and applied [2,3]
This paper focuses on the relationship between new energy sources, combined with complex adaptive system (CAS) theory, and proposes a multi-energy power system power planning model based on agent modeling, which
The adaptation process of a CAS is essentially a dynamic and generalized optimization evolution process that is based on the group
Summary
In order to cope with the shortage of fossil fuels, the aggravation of environmental pollution and global climate change and other important issues, vigorously developing non-fossil energy, especially new energy represented by wind and solar energy, has become a universal choice for countries around the world to formulate energy policies and promote clean energy transition[1].Photovoltaic power generation and wind power generation have little impact on the environment, have better long-term economics, so they are easier to be widely promoted and applied [2,3]. In order to realize the continuity and smoothness of power generation, the literature [18] defines the complementarity rate and smoothness index, studies the complementary optimization strategy of power generation resources with intermittent power sources, and proposes the allocation ratio of nonadjustable resource capacity and adjustable resource Quantitative analysis method of configuration capacity.Reference [19] proposed a capacity optimization allocation model of wind-solar hybrid power supply system based on improved differential evolution algorithm. Considering the output characteristics of wind power, photovoltaic, hydropower, thermal power and solar thermal power, based on the complex adaptive system theory, focusing on the complex coupling relationship between heterogeneous energy sources, this paper analyzes the complexity generation mechanism of multi-energy power system, and proposes a multi-point layout planning and design method of wide-area complementary new energy.The contributions of this paper are threefold as follows.
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