多能源协同低碳能源管理系统控制策略

L. Zhong, Xi Hu, Jun Lei, Gaopeng Guo, Haojun Yan
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引用次数: 0

摘要

多能源协同低碳能源管理体系的提出和发展,为逐步提高新能源发电比重、优化能源利用效率、减少温室气体排放提供了新的解决方案。由于本文充分考虑了各种能源之间动态特性的差异,并且根据不同时间尺度下的负荷和新能源的预测精度结果,其最优调度也有所不同。在冷、热、电、气多能协同综合能源园区系统中,多时间尺度调度策略合理协调多种设备优化其运行,对系统经济可靠运行具有重要意义。在对设备详细建模的基础上,结合分时电价和分时天然气价格,考虑多能互补运行,本文动态调整设备运行状态,以应对负荷和新能源输出的小范围不确定波动,从而满足系统的经济可靠运行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Control strategy of multi-energy collaborative low carbon energy management system
The proposal and development of a multi-energy collaborative low-carbon energy management system put forward new solutions for gradually increasing the proportion of new energy power generation, optimizing energy utilization efficiency, and reducing greenhouse gas emissions. Because this paper fully considers the differences in dynamic characteristics among various energy sources, and the optimal scheduling is also different according to the load under different time scales and the prediction accuracy results of new energy. In the multi-energy coordinated comprehensive energy park system of cold, heat, electricity, and gas, the multi time scale scheduling strategy reasonably coordinates a variety of equipment to optimize its operation, which is of great significance to the economic and reliable operation of the system, Based on the detailed modelling of the equipment, combined with the time-sharing price and time-sharing natural gas price, and considering the multi-energy complementary operation, this paper dynamically adjusts the equipment operation state to deal with the small-scale uncertain fluctuation of load and new energy output, so as to meet the economic and reliable operation of the system.
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