環境資源報告成果查詢系統

110年臺中市細懸浮微粒與能見度分析及空品預報計畫

中文摘要 本計畫工作範圍包括管道PM2.5檢測、微粒粒徑及消光係數研究、數位攝影技術解析能見度以及空氣品質預報。 本年度管道PM2.5檢測包括后里垃圾焚化爐、祥祐資源及豐興鋼鐵排放管道,檢測結果顯示可過濾性微粒(Filterable Particulate Matter)FPM分別為0.60 mg/Nm3、2.06 mg/Nm3、0.060 mg/Nm3,可凝結性微粒(Condensable Particulate Matter)CPM為 1.50 mg/Nm3、18.1 mg/Nm3、0.37 mg/Nm3。 臺中市海區龍井微粒與消光特性監測,消光係數介於3 Mm-1~115Mm-1之間,散光效應是造成能見度差之主因,平均散光貢獻占69%,吸光貢獻占31%。以實際量測的散光係數與PM1化學成分建立多元線性廻歸式,各化學物種中以硝酸根之散光效率最高15.8 m2/g,其次為硫酸根4.6 m2/g,有機碳為4.2 m2/g,對臺中市而言,硝酸鹽對能見度影響最大,多數硝酸鹽屬於二次污染物,前驅物為氮氧化物(NOx),因此欲有效快速地改善能見度,管制策略應以減少工業及交通氮氧化物的排放為主。 數位攝影技術解析能見度工作,在本市沙鹿區、北屯區及烏日區進行,方法是以攝影機擷取影像,透過軟體改變影像資訊,轉換成灰階數值,再將數值差異與藉由關係式轉換成能見度值。以3月~11月資料解析結果,北屯站及弘光站影像亮度差值與能見度呈現線性相關,而烏日站則呈現指數相關。以每日中午能見度情況統計,可知北屯站能見度最差,能見度大於 20 km 的機率約13.6% ,其次為弘光站32.8%,烏日站能見度最佳,能見度大於 20 km的機率約56.6%。 預測未來48小時空氣品質狀況,3月~11月統計顯示,每三小時預測AQI值(空氣品質標準,Air Quality Index)準確度而言,AQI=101~150預報準確率介於82%~94%,AQI>150預報準確率介於88%~96%。
中文關鍵字 可凝結性懸浮微粒、可過濾性懸浮微粒、能見度、消光係數、微粒粒徑分布、數位影像處理

基本資訊

專案計畫編號 經費年度 110 計畫經費 12800 千元
專案開始日期 2021/03/11 專案結束日期 2021/12/31 專案主持人 白玨玲
主辦單位 臺中市政府環境保護局 承辦人 張詠雅 執行單位 台灣綠仕科技有限公司

成果下載

類型 檔名 檔案大小 說明
期末報告 110年臺中市細懸浮微粒與能見度分析及空品預報計畫_定稿R.pdf 13MB 110年臺中市細懸浮微粒與能見度分析及空品預報計畫_定稿

Analysis of PM2.5 and Visibility and Air Quality Forecasting in Taichung, 2021

英文摘要 The scope of this project includes stack monitoring of PM2.5, investigation of particle size and extinction coefficient characteristics, measurement of visibility using digital image processing, and air quality forecasting. In the year 2021, PM2.5 stack monitoring were performed on the municipal waste incinerator in Houli , as well as the solvent waste incinerator of Shine-yo Resource & Recycling Co., Ltd. and the electric arc furnace of Feng Hsin Steel Co., Ltd. The results indicate that FPM(Filterable Particulate Matter) were 0.60 mg/Nm3, 2.06 mg/Nm3 and 0.060 mg/Nm3. Also, CPM (Condensable Particulate Matter)were 1.50 mg/Nm3, 18.1 mg/Nm3 and 0.37 mg/Nm3. We monitored the characteristics of particulate matter and light extinction in the coastal Longjing District of the City of Taichung. The extinction coefficient was between 3 Mm-1 and 115 Mm-1. Low visibility was mainly attributed to scattering. On average, the contribution of scattering was 69%, while the contribution of absorption was 31%. The multiple linear regression formula was based on the actual measured scattering coefficient and the chemical composition of PM1. Among the chemical species, the highest scattering efficiency was nitrate, at 15.8 m2/g, and followed by sulfate and organic carbon, at 4.6 m2/g and 4.2 m2/g. For Taichung City, nitrate has the greatest impact on visibility. Most nitrates are secondary pollutants, and the precursor is nitrogen oxides (NOX). Therefore, the control strategies to improve the visibility effectively and quickly is that should focus on reducing the emissions of nitrogen oxides in industrial and traffic. We used digital image processing to measure visibility in the Shalu, Beitun, and Wuri Districts of the City. The methodology used was the following: 1. Capture an image with a camera. 2. Transform the image into grayscale values with the aid of software. 3. Transform differences in values into values of visibility with a formula. Analysis data from March through November, value differences of imagery brightness exhibited a linear relationship with visibility at the Beitun station and the Hungkuang station, while the relationship was exponential at the Wuri station. We compiled the daily visibility above 20 km statistics at noon. At the Beitun station, the visibility with the lowest probability was at 13.6%. And followed by the Hungkuang station with 32.8%. The visibility above 20 km with the highest probability was at the Wuri station, at 56.6%. We conducted air quality forecasting for the upcoming 48 hours, using data from March through November. Regarding three-hourly AQI (Air Quality Index)predictions, the accuracy for AQI=101~150 was between 82% and 94%. For AQI>150, the forecasting accuracy was between 88% and 96%.
英文關鍵字 Filterable Particulate Matter (FPM), Condensable Particulate Matter (CPM), Visibility, Extinction Coefficient, Particle Size Distribution, Digital Image Processing