电工技术学报2024,Vol.39Issue(7):2033-2045,13.DOI:10.19595/j.cnki.1000-6753.tces.230188
考虑风电爬坡灵活调节的碳捕集电厂低碳经济调度
Low-Carbon and Economic Dispatch Considering the Carbon Capture Power Plants with Flexible Adjustment of Wind Power Ramp
摘要
Abstract
With the continuous progress of economy and society,the greenhouse effect problem has been increasingly emerging.In order to achieve the"dual-carbon"goal,the use of renewable energy such as wind power is the fundamental way to reduce carbon emissions,and carbon capturing is a direct method to reduce carbon emissions.Carbon capture power plants are well suited to wind power because carbon capture power plants have fast response speed.However,wind power has inherent volatility,and the sudden rise and fall of wind power will affect electric-carbon coordinated performances of carbon capture power plants.The energy can be stored and released by increasing or decreasing the solution volume in the liquid storage tank of the carbon capture equipment.The ability of energy shifting is called the internal energy time shift characteristics,which provides a way to solve the above problems. This paper solves the dispatch problem of wind power ramp through the flexible call of liquid storage tanks in carbon capture plants.Firstly,a mathematical model of carbon capture power plants is constructed.The correlation between the storage and release energy brought by the increase and decrease of the solution volume of the liquid storage tank and the energy consumption of the carbon capture equipment is analyzed.Then the bidirectional regulation ability of the liquid storage tank is studied.Secondly,the up-hill carbon advance compensation and down-hill carbon lag compensation dispatch strategies are proposed,and the liquid storage tank is adjusted in both directions to achieve electricity-carbon decoupling of the carbon capture power plant.Before wind power ramp up,by using the up-hill carbon advance compensation dispatch strategy,the desorption of solution is reduced and the solution is stored in the liquid storage tank.When wind power ramp events occur,the solution stored in the liquid storage tank can be desorbed to increase the carbon capture energy consumption.As a result,the net output of carbon capture plants is reduced to match the wind power ramp up.The wind curtailment problem is decreased by using the up-hill carbon advance compensation dispatch strategy.When wind power ramp down,by using the down-hill carbon lag compensation dispatch strategy the desorption of solution volume is reduced and the solution is stored in the liquid storage tank to decrease the carbon capture energy consumption.As a result,the net output of carbon capture plants is increased to match the wind power ramp down.The load cutting problems can be decreased by using the down-hill carbon lag compensation dispatch strategy.After wind power ramp down,the stored solution in the liquid storage tank is lagging desorbed by carbon capture power plants.Finally,a low-carbon economic dispatch model that deals with wind power ramp is constructed and the power systems consisting of carbon capture power plants,high-carbon power plants and a wind farm are simulated to prove the effectiveness of the proposed dispatch strategy. The simulation results show that the carbon capture power plant using the up-hill and down-hill dispatch strategy can better reduce wind power curtailment and load shedding caused by wind power ramp.From the analysis of the calculation examples,the wind power curtailment rate decreases 31.57% and the load shedding rate decreases 22.45% .When wind power ramp events occur,carbon capture power plants using the dispatch strategy can fully utilize wind power and reduce carbon emissions and costs,and can provide faster and more flexible climbing adjustment capability to undertake climbing tasks.关键词
碳减排/风电爬坡/碳捕集电厂/碳补偿Key words
Carbon emission reduction/wind power ramp/carbon capture power plants/carbon offset分类
信息技术与安全科学引用本文复制引用
韩丽,王冲,于晓娇,喻洪波,王晓静..考虑风电爬坡灵活调节的碳捕集电厂低碳经济调度[J].电工技术学报,2024,39(7):2033-2045,13.基金项目
国家自然科学基金项目(62076243)和徐州市科技项目(KC22343)资助. (62076243)
