Abstract Over the decades, both agriculture and energy grids have encountered significant challenges, such as the lack of power supply to agricultural farms and the difficulties of renewable energy use in the electricity sector. To overcome and address these issues, this paper presents an idea of merging smart farm and renewable energy, using surplus renewable energy for the agriculture sector using the smart farm for renewable energy supplies. First, demonstrate the framework to connect a smart farm energy system and analyze its feasibility and advantages. In this paper, Reactive Energy Utilization Technology (REUT) has been used as an efficient energy consumption system for the smart farm. It is used to predict the optimum wind power scenario in the smart farm by monitoring continuous control variables, with the lowest voltage reached in each scenario, and minimized actual total power losses. A combined system consisting of smart farming production, as well as renewable energy consumption, has been evaluated in experimental results. Experimental results and discussion shows that the proposed method has better renewable energy consumption, accuracy(96.7%), and efficiency(95.6%) for smart farming.

中文翻译：

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基于无功能源利用技术的智能农场先进能耗系统

摘要 几十年来，农业和能源电网都面临着农业领域电力供应不足、电力部门可再生能源利用困难等重大挑战。为了克服和解决这些问题，本文提出了融合智能农场和可再生能源的想法，将剩余的可再生能源用于农业部门，使用智能农场提供可再生能源供应。首先，展示连接智能农场能源系统的框架并分析其可行性和优势。在本文中，无功能源利用技术（REUT）已被用作智能农场的高效能源消耗系统。用于通过监测连续控制变量来预测智能农场中的最佳风电方案，在每种情况下达到最低电压，并最大限度地减少实际总功率损耗。由智能农业生产和可再生能源消费组成的组合系统已在实验结果中得到评估。实验结果和讨论表明，所提出的方法具有更好的可再生能源消耗、精度（96.7%）和智能农业的效率（95.6%）。