基于可再生能源的消费系统监测与数据采集

F. Panaitescu, M. Panaitescu, D. Juganaru
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引用次数: 1

摘要

在HORESEC项目中,康斯坦察海事大学(CMU)的航海基地开发了一个风-光-电-发电机-可再生能源联合系统。该系统完全是在CMU设计和构建的,目的是对上网和离网运行效率进行联合测试。本文介绍了以下方面:1)需要通过可再生能源对环境和气候的整体影响项目,在支持能源智能专业化的背景下,建立一个太阳能和风能资源监测和利用研究中心;2) 这项工作的目的是展示CMU设计和构建的系统结构,以测试其效率,以及每隔5分钟、每天、每周、每月或每年在门户网站上显示的系统监测的所有参数的数据采集。研究包括:1)针对离网变体的系统配置,该变体选择了锂离子电池组[2],标称电压为55.5 VDC,工作电压在61.5 V和45 V之间,标称存储容量为6.74 kWh,可用电量为5.5 kWh;2) 测量和数据传输系统在网络上的编程,以及移动测量系统的编程,该系统可以以最小1个月/秒的采样率和最大30天的测量时间将数据传输到PC(Janitza系统、SMA能量计、Fluke电流表-电压表组+PC+适配器)。获得的结果包括在门户网站上显示创建的系统监控的所有参数,间隔5分钟,或每天、每周、每月或每年(数据报告),以及及时显示现有事件。所创建的系统具有通过使用非常规的存储和消耗管理方法来提高能源效率的优点。
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MONITORING AND DATA ACQUISITION FOR A CONSUMPTION SYSTEM BASED ON RENEWABLE ENERGIES
Within the HORESEC project, a combined wind-photovoltaic-motogenerator renewable energy system was developed at the Nautical Base of the Maritime University of Constanta (CMU). The system was entirely designed and built at CMU for the purpose of combined testing of on-grid and off-grid operation efficiency. In this paper the following aspects are presented: 1) the need to create a research centre on monitoring and use of solar and wind resources, through the project Holistic impact of renewable energy sources on the environment and climate-HORESEC in the context of supporting smart specialization in energy; 2) the purpose of the work is presentation of the structure of the system designed and built at CMU in order to test its efficiency, as well as the acquisition of data displayed on a portal for all parameters monitored by the system, at intervals of 5 minutes, or daily, or weekly, monthly or annually. The research consisted in: 1) the configuration of the system to be made for the off grid variant, which opted for a Li-Ion battery bank [2], with a nominal voltage of 55.5 VDC and working between 61.5 V and 45 V, with nominal storage capacity of 6.74 kWh and usable of 5.5 kWh; 2) programming of the measurement and data transmission systems on the web, as well as of the mobile measurement system with the possibility of data transmission to the PC with the sampling rate of minimum 1 month / sec and measurement time of maximum 30 days (Janitza system, SMA Energy meter, Fluke ammeter-voltmeter group + PC + adapter ). The obtained results consist in displaying on a portal all the parameters monitored by the created system, on intervals lasting 5 minutes, or daily, or weekly, monthly or annually (data reports), as well as the existing events in time. The created system has the advantage of increasing energy efficiency by using unconventional methods of storage and consumption management.
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来源期刊
International Journal of Modern Manufacturing Technologies
International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering
CiteScore
0.70
自引率
0.00%
发文量
15
期刊介绍: The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.
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