摘要
通过引入KingSCADA作为核心系统,光伏工厂成功部署了13000个数据采集点,实时监控车间的能源消耗情况,并构建能源需求预测模型,实现能源的智能调度。该系统不仅提高了数据采集和存储的效率,还优化了能源的利用,降低了生产成本和能耗。KingSCADA的开放性和标准化协议支持使得第三方软件能够轻松实现数据交互,为工厂的数字化转型提供支持。经过实施,该数字化能源管理系统在关键指标上表现出色,提升了工厂的经济效益。然而,仍需注意系统更新、界面设计和用户反馈等问题,以进一步优化系统性能。本研究为光伏工厂的数字化转型和能源管理提供了有益参考。
By introducing KingSCADA as the core system,the photovoltaic factory has successfully deployed 13000 data collection points to monitor the energy consumption of the workshop in real time,and constructed an energy demand prediction model to achieve intelligent energy scheduling.This system not only improves the efficiency of data collection and storage,but also optimizes energy utilization,reduces production costs and energy consumption.The openness and standardized protocol support of KingSCADA enable third-party software to easily achieve data exchange,providing support for the digital transformation of factories.After implementation,the digital energy management system has performed well in key indicators and improved the economic efficiency of the factory.However,attention still needs to be paid to system updates,interface design,and user feedback to further optimize system performance.This study provides useful references for the digital transformation and energy management of photovoltaic factories.
作者
杨燕
张东翔
YANG Yan;ZHANG Dongxiang(Beijing Yakong Technology Development Co.,Ltd.,Beijing 100080;Sichuan Meike New Energy Co.,Ltd.,Meishan Sichuan 620041)
出处
《软件》
2024年第7期108-111,共4页
Software
