计及碳交易机制的含光热电站海岛微网能量管理策略OA
Energy Management Strategy of Island Microgrid with Photothermal Power Station Including Carbon Trading Mechanism
针对海岛能源供给低碳经济性和热电联产机组"以热定电"稳定运行问题,文中提出计及碳交易机制的含光热电站海岛微网能量管理策略.基于光热电站、热泵、风电、微型燃气轮机组、海水淡化设备等集电、热、水一体化的多能源海岛微网系统,通过热泵配合光热电站实现电-热能量双向转化,提高光热电站的发电能力并满足部分热负荷需求.引入碳交易机制来限制碳排放,建立海岛微网低碳经济性模型,研究在光热电站参与下海岛微网不同运行方式的经济性.多场景对比实验证明了海岛微网低碳经济调度可以较好地兼顾经济性与环保性,在以较低经济成本运行的同时碳排放较少.
In view of the low carbon economy of energy supply and the stable operation of"heat to power"of cogeneration units in offshore islands,an energy management strategy of island micro-grid of photothermal power stations with carbon trading mechanism is proposed.Based on the multi-energy island micro-grid system integra-ting power collection,heat and water,such as solar thermal power station,heat pump,wind power,micro gas tur-bine unit and seawater desalination equipment,the heat pump achieves the bi-directional conversion of electric-thermal energy with solar thermal power station to improve the power generation capacity of solar thermal power station and meet part of the heat load demand.Carbon trading mechanism is introduced to limit carbon emissions,and low-carbon economic model of island micro-grid is established to study the economy of different operation modes of is-land micro-grid with the participation of photothermal power stations.The multi-scenario comparison experiment verifies that the island micro-grid low-carbon economic dispatching can better balance economy and environmental protection,and generate less carbon emissions while operating at a lower economic cost.
高降宇;陈蓓;黄帅博
上海工程技术大学 电子电气工程学院,上海 201620
计算机与自动化
海岛微网能量管理海水淡化碳交易机制低碳经济性光热电站电-热转化多场景对比
island microgridenergy managementseawater desalinationcarbon trading schemelow carbon economyphotothermal power stationelectric heating conversionmulti-scene comparison
《电子科技》 2024 (008)
40-46 / 7
国家自然科学基金(62173222,61803255)National Natural Science Foundation of China(62173222,61803255)
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