Olexander Shavolkin, Yevhen Stanovskyi, Mykola Pidhainyi, R. Marchenko, Hennadii Kruhliak
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摘要

目的。通过对可充电电池混合光电系统的改进管理,提高了系统的效率,并对系统中的能量过程进行了模拟预测,制定了能源管理系统的实施原则和方法。基于光电电池发电档案数据,利用控制重构原理的形式化分析了光电系统电路中的能量过程,并利用计算机建模对能量管理效率进行了评价。提出了系统每日工作周期能量过程模型的块结构和一般结构,并对从电网消耗的电力成本进行了估算。根据光电电池发电量的预测,确定了系统的控制方式和功耗的原理。改进了根据光电发电量预测、电池充电状态和电网限用功率设定电池电流的原则。这将有助于更好地利用光电电池的能量,减少来自电网的电力消耗。基于厂商目录数据建立的可充电电池的数学模型得到了改进。利用附加变量对系统中的能量过程进行形式化,这些附加变量通过调节光电电池发电或电池电流并考虑到电网消耗的功率限制来提供功的重新配置。实用价值。得到的解是设计满足局部目标需要的光电控制系统的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
МОДЕЛЮВАННЯ ЕНЕРГЕТИЧНИХ ПРОЦЕСІВ В ГІБРИДНІЙ ФОТОЕЛЕКТРИЧНІЙ СИСТЕМІ З АКУМУЛЯТОРОМ ДЛЯ ПОТРЕБ ЛОКАЛЬНОГО ОБ’ЄКТУ
Purpose. Improving the efficiency of a hybrid photoelectric system with a rechargeable battery for the needs of the local object by improving the management of the forecast with simulation of energy processes in the system, development of principles for the implementation of energy management systems.Methodology. Analysis of energy processes in the electrical circuits of the photoelectric system with the formalization of the principles of control reconfiguration and the use of computer modeling based on archival data of photoelectric battery generation to evaluate the efficiency of energy management.Findings. Block structures and the general structure of the model of energy processes in the system for the daily cycle of work with an estimation of the cost of electricity consumed from the grid have been developed. The principles of control modes and power consumption of the system according to the forecast of photoelectric battery generation were formalized.Originality. The principles of setting the battery current according to the forecast of photoelectric energy generation, the state of battery charge and the power limit consumed from the grid have been improved. It will help to make better use of the energy of the photoelectric battery and reduce the consumption of electricity from the grid. The mathematical model of the rechargeable battery, built on the manufacturer's catalog data has been improved. The formalization of energy processes in the system with the use of additional variables, which provide reconfiguration of work with regulation of photoelectric battery generation or battery current and taking into account the power limit consumed from the grid is substantiated.Practical value. The obtained solutions are the basis for designing photoelectric control systems to meet the needs of local objects.
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