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研究生:楊家端
研究生(外文):YANG, CHIA-TUAN
論文名稱:能源監測應用於恆溫恆濕腔體結合網頁設計之研究
論文名稱(外文):Energy Monitoring Applied to Constant Temperature and Humidity Chamber Combined with Webpage Design
指導教授:鄭鴻斌鄭鴻斌引用關係
指導教授(外文):CHENG, HONG-PING
口試委員:張天立顏維謀陳清祺鄭鴻斌
口試委員(外文):CHANG, TIEN-LIYAN, WEI-MOUCHNEG, CHIN-CHICHENG, HONG-PING
口試日期:2018-06-15
學位類別:碩士
校院名稱:國立臺北科技大學
系所名稱:能源與冷凍空調工程系
學門:工程學門
學類:其他工程學類
論文種類:學術論文
論文出版年:2019
畢業學年度:107
語文別:中文
論文頁數:107
中文關鍵詞:能源監測系統節能網頁設計
外文關鍵詞:Energy Management SystemEnergy SavingWebpage Design
相關次數:
  • 被引用被引用:0
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  • 下載下載:3
  • 收藏至我的研究室書目清單書目收藏:0
近年來科技日新月異,帶來的便利性提高了世人們的生活品質。本研究以能源監測應用於恆溫恆濕腔體結合網頁設計之研究為核心,網路發達與科技純熟的現今,能源監測系統(Energy Management System,EMS)在技術發展上,有網路技術提升,為世人們帶來諸多便利。本研究利用硬體設備-電錶及通訊傳輸線結合PLC控制箱做能源數據蒐集,透過Visual Basic設計資料解碼之人機介面程式,再透過有線傳輸將能耗數據上傳至資料庫,最後進行能源監測,找出效率及節能最佳情況。而本研究最大的特色在於,針對案場設備-恆溫恆濕腔體,將腔體內之電器設備,如壓縮機、加濕器、加熱器等耗能比例高的設備做能源監測,藉由偵測到之參數數據資料,利用程式語言-Visual Basic及網頁設計語言-HTML、CSS,製作能源監測系統網站,進行資料運算來分析大量資料。透過網頁方式呈現,可達到可視化之成效,針對恆溫恆濕腔體之能源監測結果,提出相對應節能建議,使恆溫恆濕腔體能在運作時達到最佳節能效果。本研究發現當目標濕度越高,PID參數的設定對能耗沒有顯著影響。設備在運作下,濕度應不調太高,在不調高的情況下,節能率有明顯地差異。本研究實驗統計結果節能率落在0.8%~6.5%。反之在高濕度情況下,節能率沒有明顯差異。透過網頁設計,設計一套監測數據資料可視化介面,能達到即時監測成效,更能有效對於設備運作情況是否異常。
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.
摘要 I
ABSTRACT II
誌 謝 IV
目錄 V
表目錄 VII
圖目錄 IX
第一章 緒論 1
1.1前言 1
1.2文獻回顧 3
1.3研究背景與動機 6
第二章 基礎理論 7
2.1 ISO50001 標準規範 7
2.2網際網路架構 9
2.3侵入式負載監測系統 10
2.4交流電功率 11
2.5 網頁設計簡介 13
2.5.1 網頁設計流程 14
2.5.2 程式語言之分類 16
2.6 VISUAL BASIC介紹 17
第三章 研究方法與步驟 19
3.1研究步驟 19
3.2 案場用電設備概述 21
3.3 精巧型電錶操作介紹 24
3.3.1 實驗量測設備架設 31
3.4 資料庫架設 35
3.4.1 資料庫讀取相關指令 38
3.4.2 監測數據匯入資料庫 41
3.5 能源監測系統(網頁設計) 50
3.5.1 VISUAL BASIC常用之工具 55
3.5.2 VISUAL BASIC分析數據常用程式方法 57
第四章 結果與討論 63
4.1 案場現況概述 63
4.2 數據資料上傳至資料庫改善 64
4.3 數據分析結果 73
4.3.1 各目標溫濕度與能耗結果比較 79
4.4 網頁可視化結果 99
第五章 結論與建議 100
5.1結論 100
5.2建議 101
參考文獻 102
附錄 106
附錄 A 電錶PA30結合PLC之參數設定 [40] 106


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