Implementing a Cloud Monitoring System for Electricity Energy Storage Based on ARDUINO Platform
| Autor: | LIN, XIN-FU, 林信甫 |
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| Rok vydání: | 2019 |
| Druh dokumentu: | 學位論文 ; thesis |
| Popis: | 107 In recent years, the development of renewable energy has been paid considerable attention over all the world. Since 2000, Taiwan has been building a solar-renewable energy-related setting. After the national policy to promote the "Sunshine Roof Million Block" program, Taiwan's powerful support for the development of solar energy systems has been added. It shows that solar renewable energy in Taiwan will be infinitely developed in the future. The development of cloud-based, digital, and intelligent technologies in recent years has advanced by leaps and bounds, and related products have come out one after another. Especially in the intelligent part, electrical monitoring in homes and public facilities is developed on home computers and mobile devices. Cloudization is the ability to record all information of related electrical equipment using IoT technology in the cloud. This not only enables complete storage of the history and details of the use of electrical appliances, but also through a complete set of real-time monitoring systems for monitoring and maintenance purposes. The Internet of Things has subverted the way of life of human beings, greatly improving the life style of instant, safe and convenient, and delivering professional information to users in the most direct and correct way. It can be seen that clouding all information and manipulating it on mobile devices is an inevitable trend in the future, which is the biggest motivation for urging this research. This study aims to add an emergency power supply system to the existing power system. In addition, through the cloud and intelligent technology, the information is instantly transmitted to the cloud, so that the user can monitor the status of the standby lithium battery at any time, and then switch the related switches. An emergency backup energy storage device that combines solar renewable energy with utility power is developed. First, the solar maximum power point tracking device is constructed to ensure the utilization of solar energy renewable energy. The lithium battery in the system can be charged via solar or commercial power as an emergency backup electrical energy storage device. In this study, a simple and feasible lithium battery charge and discharge switching strategy is proposed to improve the integrity of the research. A cloud monitoring system that allows users to instantly monitor the status of electrical energy storage devices on their home computers and mobile devices is also built in our research. |
| Databáze: | Networked Digital Library of Theses & Dissertations |
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