研究生: |
陳怡彰 I-CHANG CHEN |
---|---|
論文名稱: |
基以免建立程序模型之空調系統適應性溫度控制研究 Study of Model Free Adaptive Temperature Control for Heating, Ventilating and Air Conditioning System |
指導教授: |
蔡明忠
Ming-Jong Tsai |
口試委員: |
李敏凡
Ricky Lee 陳金聖 Chin-Sheng Chen |
學位類別: |
碩士 Master |
系所名稱: |
工程學院 - 自動化及控制研究所 Graduate Institute of Automation and Control |
論文出版年: | 2011 |
畢業學年度: | 99 |
語文別: | 中文 |
論文頁數: | 122 |
中文關鍵詞: | 大樓 、類神經網路 、免建立程序模型適應性控制 、PID控制 、直接數位處理機 、模糊控制 、空調系統 |
外文關鍵詞: | Building, Neural Network, Model Free Adaptive Control, PID control, Direct Digital controller (DDC), Fuzzy Control, Heating Ventilating and Air Conditioning ( HVAC) |
相關次數: | 點閱:317 下載:5 |
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空調系統在智慧型建築物中所佔耗電量相當大,所以空調系統的控制對於能源節省也就顯得重要。本論文主旨在探討以免建立程序模型適應性控制器應用於大樓中央空調系統之溫度控制效能。經由北部某一飯店進行實際溫度資料收集,透過一群組實際測量的數據,模擬餐廳空調負載模型及模擬免建立程序模型適應性控制器與PID控制器之輸入與輸出間之關係,再比較其達到安定溫度所花費時間的差異。本研究第一階段為模擬餐廳空調負載模型的訓練,類神經網路架構乃透過Matlab加以訓練,運用412筆多輸入及單輸出值資料。其輸入值為控制閥開度比、外氣溫度及定義餐廳熱能產生比例,輸出值為回風溫度,所模擬的模型與實際量測數據之平均誤差為1.055%。第二階段則以模糊控制理論做為模擬控制器模型的訓練,利用Matlab模擬控制器之模型,再改變設定溫度及外部環境變化,比較其至安定溫度所花費之時間。經由驗證結果顯示,MFA控制較優於傳統的PID控制,且適合應用於空調系統的控制,並得以加快達到安定溫度比PID控制約快7.78%,故可減少控制閥頻繁動作和節省能源。
A HVAC consumes heavy electricity in an intelligent building. It shows the importance of HVAC control for energy saving. This study investigates the performance of application of a Model Free Adaptive (MFA) controller to temperature control on a central air conditioning system. After collecting actual temperature data from a hotel in northern Taiwan, a simulated model of the HVAC load for restaurant is to built according to relationships between input and output. Then, both MFA and PID controllers are modeled and compared on the differences of time responses for steady state. In the first stage, a HVAC load model for restaurant is trained with Neural Network by using Matlab from collected 412 sets of data. The three inputs include control valve open, outside temperature, generated heat of restaurant, and the single output is the feedback temperature. The average trained error is around 1.055% between measured and simulated temperature. In second stage, simulated controller models with Fuzzy Control Theory are trained by using Matlab with inputs and outputs from both PID and MFA controller. By changing the setting parameters, the response time of steady state is measured for comparison. From the simulated results, the MFA controller has faster setting time of 7.78% than PID. It reduces action times of control valve and saves unnecessary energy wasting.
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