Energy Monitoring Applied to Constant Temperature and Humidity Chamber Combined with Webpage Design

• Main Authors: YANG, CHIA-TUAN, 楊家端
• Other Authors: CHENG, HONG-PING
• Format: Others
• Language: zh-TW
• Published: 2019
• Online Access: http://ndltd.ncl.edu.tw/handle/6gsut8

碩士 === 國立臺北科技大學 === 能源與冷凍空調工程系 === 107 === In recent years, technology has changed rapidly, the convenience brought by it has improved the quality of life of the people. This research is centered on the research of energy monitoring applied to constant temperature and humidity chamber combined with webpage design. Internet is booming and technology is now sophisticated, Energy Monitoring System Technology Development, Internet technology upgrade, Bring people a lot of convenience. This study uses hardware equipment - electricity meters and communication transmission lines combined with PLC control box for energy data collection, Human Machine Interface Programs with Visual Basic Design Data Decoding. Then upload energy consumption data to the database through wired transmission, Final energy monitoring to find the best efficiency and energy saving. The biggest feature of this study is that, For the field equipment - constant temperature and humidity chamber, To monitor the energy consumption of electrical equipment such as compressors, humidifiers, and heaters in a constant temperature and humidity chamber. Through the detected data, the website of the energy monitoring system is created using programming language-Visual Basic and web design language-HTML and CSS, Make energy monitoring system website, perform data calculation to analyze large amount of data. Through webpage presentation, the visualization results can be achieved, and the energy monitoring results for the constant temperature and humidity chambers can be achieved. Put forward corresponding energy-saving suggestions, The constant temperature and humidity chamber can achieve the best energy saving effect during operation. The study found that the higher the target humidity, the PID parameter setting has no significant effect on energy consumption. When the equipment is in operation, the humidity should not be adjusted too high. In the case of no increase, the energy saving rate is obviously different. The statistical results of the experimental results of this study show that the energy saving rate falls between 0.8% and 6.5%. On the other hand, there is no significant difference in the energy saving rate under high humidity conditions. Through webpage design, Design a set of monitoring data visualization interface, Can achieve immediate monitoring results. It can be more effective for abnormal operation of equipment.