"Development of fine particle (PM2.5) measurement technology"
「"Development of fine particle (PM2.5) measurement technology"」於資料集「EPQSummary_EnvironmentalMonitoringAndTesting」由單位「行政院環境保護署」的陳先生所提供,聯繫電話是02-2311-7722#2386,最近更新時間為:2023-07-30 01:01:45。 欄位Project Title的內容是"Development of fine particle (PM2.5) measurement technology" , 欄位Project Subject的內容是"In recent years, the vehicle particle emissions standards had been included by regulations. The new measurement technology and control regulations for particle emissions can be expected. Hence, the development of particle concentration measurement system is essential. The purpose of this is to develop a measurement system for screening motorcycle exhaust particle emissions.
The measuring system consisted of a buffer chamber, dehumifier, cyclone, and measurement instruments. The test particles were generated by a four-stroke engine of 125 cc motorcycle installed on the dynamometer. The particle size distribution, hygroscopic characteristic, and water content of emissions were evaluated for choosing the particle selector and dehumifier. Afterward, the different instruments were employed for measuring particle number and mass concentration on engine idle condition. The test dehumifiers including dilutor, Nafion drayer and ice bath. The particle selector was the cyclone. The particle number and mass concentration were measured by filter weighting, SMPS, FMPS, CPC, AE51, Dusttrak, and opacity meter.
The results indicated that the engine emission at idle mode (1750 rpm) had a particle CMD of 0.05μm, GSD of 1.8 and number concentration of 104~105 #/cm3. The particles generated from engine emissions did not growth even if the RH achieved 100 %. Hence, the purpose of dilution was to decrease the sample temperature and avoid the water condensed on the sampling tube. The sample water content was 7 % and 10 % at idle mode and the full speed mode, respectively. The water content increased with increasing engine speed. The dilution ratio of 10 was enough for avoiding water
condensed, but the drawback is the low particle concentration because of the dilution. The Nafion dryer had no particle loss for particles (30 ~ 750 nm) and had excellent dehumifiy efficiency. The expensive price was the drawback of Nafion. The ice bath is most cheap and simple method to decrease temperature and humidity.
The cyclone had the same particle penetration curve with US EPA PM2.5 size-selection curve at the flow rate of 16.7 and 3 L/min. The particle characteristic measure by 27 motorcycles indicated that the particle mode is 50 nm. The mass concentration and number concentration of 19 carburetor engines were 730.4±187.6 μg/m3 and 2×106±721725 #/cm3, respectively. For 8 electronic injection engines, the mass concentration and number concentration were 139.6±78.8 μg/m3 and 1.2×105±8562 #/cm3. The multi-reflection opacity meter (light path= 13 m) had a detection limit of 1 mg/m3 when the number concentration was 104~105 #/m3 and particle size was 70nm. Hence the opacity meter had no response for the motorcycle particle emissions. The regression value of mass concentration on FMPS, SMPS, AE51 and CPC measurements were 0.785, 0.764, 0.698 and 0.961. The highest correlation existed between the filter weighting and AE51. Hence, the combination of AE51 and ice bath dehumifier were recommend method for the motorcycle particle emission screening.
" , 欄位Project Year的內容是2014 , 欄位Organizer的內容是"Environmental Analysis Laboratory" , 欄位Executive Unit的內容是"台灣大學" , 欄位Reporting download URL的內容是https://epq.epa.gov.tw/project/filedownload.aspx?fid=72810 , 欄位Publish Date的內容是20150201 。
Project Title
"Development of fine particle (PM2.5) measurement technology"
Project Subject
"In recent years, the vehicle particle emissions standards had been included by regulations. The new measurement technology and control regulations for particle emissions can be expected. Hence, the development of particle concentration measurement system is essential. The purpose of this is to develop a measurement system for screening motorcycle exhaust particle emissions. The measuring system consisted of a buffer chamber, dehumifier, cyclone, and measurement instruments. The test particles were generated by a four-stroke engine of 125 cc motorcycle installed on the dynamometer. The particle size distribution, hygroscopic characteristic, and water content of emissions were evaluated for choosing the particle selector and dehumifier. Afterward, the different instruments were employed for measuring particle number and mass concentration on engine idle condition. The test dehumifiers including dilutor, Nafion drayer and ice bath. The particle selector was the cyclone. The particle number and mass concentration were measured by filter weighting, SMPS, FMPS, CPC, AE51, Dusttrak, and opacity meter. The results indicated that the engine emission at idle mode (1750 rpm) had a particle CMD of 0.05μm, GSD of 1.8 and number concentration of 104~105 #/cm3. The particles generated from engine emissions did not growth even if the RH achieved 100 %. Hence, the purpose of dilution was to decrease the sample temperature and avoid the water condensed on the sampling tube. The sample water content was 7 % and 10 % at idle mode and the full speed mode, respectively. The water content increased with increasing engine speed. The dilution ratio of 10 was enough for avoiding water condensed, but the drawback is the low particle concentration because of the dilution. The Nafion dryer had no particle loss for particles (30 ~ 750 nm) and had excellent dehumifiy efficiency. The expensive price was the drawback of Nafion. The ice bath is most cheap and simple method to decrease temperature and humidity. The cyclone had the same particle penetration curve with US EPA PM2.5 size-selection curve at the flow rate of 16.7 and 3 L/min. The particle characteristic measure by 27 motorcycles indicated that the particle mode is 50 nm. The mass concentration and number concentration of 19 carburetor engines were 730.4±187.6 μg/m3 and 2×106±721725 #/cm3, respectively. For 8 electronic injection engines, the mass concentration and number concentration were 139.6±78.8 μg/m3 and 1.2×105±8562 #/cm3. The multi-reflection opacity meter (light path= 13 m) had a detection limit of 1 mg/m3 when the number concentration was 104~105 #/m3 and particle size was 70nm. Hence the opacity meter had no response for the motorcycle particle emissions. The regression value of mass concentration on FMPS, SMPS, AE51 and CPC measurements were 0.785, 0.764, 0.698 and 0.961. The highest correlation existed between the filter weighting and AE51. Hence, the combination of AE51 and ice bath dehumifier were recommend method for the motorcycle particle emission screening. "
Project Year
2014
Organizer
"Environmental Analysis Laboratory"
Executive Unit
"台灣大學"
Reporting download URL
Publish Date
20150201
「"Development of fine particle (PM2.5) measurement technology"」所屬的資料集:「EPQSummary_EnvironmentalMonitoringAndTesting」的其他資料
Project Title:
"The Environment Monitoring of the Water Quality in the Southern Area of Taiwan from 2015 to 2018"
Project Subject:
" The main goal of this project is to monitor the water quality of seven cities and counties in the
Project Year:
2015
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"Indoor air quality inspection, counseling, and control plan of Hsinchu City in 2016"
Project Subject:
"1. Direct-reading equipment inspection operations
The IAQ of 133 public and private premises were t
Project Year:
2016
Organizer:
"Bureau of Environmental Protection Hsin-Chu"
Project Title:
""
Project Subject:
"In this project, the market information of environmentally analytical companies in Mainland China w
Project Year:
2015
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"2018 Air Quality and Environmental Water Quality Monitoring Information System Expansion and Mainte
Project Subject:
"Environmental monitoring is an important data system of the Environmental Protection Agency, which
Project Year:
2018
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"The project of CEMS installation institution review and information management of the stationary so
Project Subject:
"The Continuous Emission Monitoring System (hereinafter referred to as “CEMS”) of air pollution for
Project Year:
2016
Organizer:
"Department of Air Quality Protection & Noise Control"
Project Title:
"Development of fine particle (PM2.5) measurement technology"
Project Subject:
"In recent years, the vehicle particle emissions standards had been included by regulations. The new
Project Year:
2014
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Study of Environmental Forensic Technology Development (3/4) –HRGC/ MS/IRMS, FTIR, and Raman Forens
Project Subject:
"The purpose of this study was to collect documentary information regarding the forensic technology
Project Year:
2015
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"2016 Environmental Quality Monitoring Station(including Mobile Monitoring Vehicle) Operation And Ma
Project Subject:
"This project was implemented from Jan. 12, 2016 to Dec. 31, 2016. All tasks defined in the Environm
Project Year:
2016
Organizer:
"Environmental Protection Bureau, Taichung City"
Project Title:
"The evaluation and identification of biological effects in high-tech industry effluent (3/4) – oxid
Project Subject:
"This study confirms that the toxicity order of oxidants (sodium hypochlorite, hydrogen peroxide) to
Project Year:
2015
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Environmental radio frequency non-ionizing radiation information investigation and monitoring"
Project Subject:
"This project aimed to understand the difference of electromagnetic exposure before and after the in
Project Year:
2021
Organizer:
"Department of Air Quality Protection & Noise Control"
Project Title:
"Industrial pollution source forensic and analysis research"
Project Subject:
"Industrial area pollutant identification technology report structure will be based on the actual im
Project Year:
2019
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Environmental Ambient Water Quality Monitoring of Middle Taiwan"
Project Subject:
"The aim of this project was to properly understand the changing trend of water quality in those typ
Project Year:
2013
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"Sampling/Monitoring Program for(FRM) PM2.5 in Southern Taiwan"
Project Subject:
" The purpose of this project was to monitor the mass concentration of fine suspended particle (P
Project Year:
2016
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"Development of analytical method for PCN project (2/2)"
Project Subject:
"The project for developing the method for the analysis of polychlorinated naphthalene (PCNs) in fly
Project Year:
2018
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"FY 2016 Authorized Environmental Analysis Organization Management Services Project"
Project Subject:
"The 2016 “Environmental Analysis Laboratories Accreditation Service Program” was commenced for the
Project Year:
2016
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"The Environment Monitoring of the Water Quality in the Southern Area of Taiwan from 2018 to 2021"
Project Subject:
" The main goal of this project is to monitor the water quality of seven cities and counties in the
Project Year:
2018
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"Probing the correlation between the organic contamination level in soils and the actual contaminati
Project Subject:
"Concentrations of organic contaminants in common productive soils based on the total soil mass give
Project Year:
2015
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Comparative study of survey techniques for aldehyde and ketone hazardous air pollutants in ambient
Project Subject:
"The goal of this project is to develop samplings and analysis technology of hazardous air pollutant
Project Year:
2019
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Study of Indoor and Outdoor Long-term Environmental Non-Ionizing Radiation Monitoring Technologies"
Project Subject:
"Nowadays, electricity and electromagnetic (EM) waves play a very important role in our daily lives
Project Year:
2014
Organizer:
"Department of Air Quality Protection & Noise Control"
Project Title:
"The development of sampling and analytical methods for semi-volatile organic compounds in stacks, i
Project Subject:
" The Environmental Protection Administration Executive Yuan announced the “Emission Standards fo
Project Year:
2019
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"The Project for 2018-2019 Joint Center for Environmental Monitoring and Technology and Asia-Pacific
Project Subject:
"Mercury (Hg) is a global pollutant, which is distributed worldwide primarily via atmospheric long-r
Project Year:
2018
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"Project for High-Efficiency Smart WIoT Networking Application"
Project Subject:
"In the wake of Taiwan's rapid economic development, industrialization and urbanization has exerted
Project Year:
2021
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
"The Project on Overseas Export and Environmental Analysis Technology"
Project Subject:
"In line with the government’s New Southbound Policy, The Environmental Protection Administration se
Project Year:
2020
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"The Environmental Monitoring of the Water Quality in the Middle Area of Taiwan from 2015 to 2018 "
Project Subject:
"The aim of this project was to properly understand the changing trend of water quality in those typ
Project Year:
2015
Organizer:
"Department of Environmental Monitoring & Information Management"
Project Title:
""
Project Subject:
"The major objective of the project aims to develop sampling and analysis technology of volatile org
Project Year:
2015
Organizer:
"Environmental Analysis Laboratory"
Project Title:
""
Project Subject:
" Based on the asymmetric flow field-flow-fractionation (AF4) system, detection system and fracti
Project Year:
2016
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Development of toxicity tests for evaluating the sensitivity of biota to estuarine sediments (1/2)"
Project Subject:
"Chemical contaminants discharged into estuaries and coastal areas often attach to sediment particle
Project Year:
2016
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Quality Assurance and Quality Control Program for Ambient Air Monitoring Stations and Laboratory in
Project Subject:
" The executing period of this project is from March 18th 2014 to June 30th
2015. The main objec
Project Year:
2014
Organizer:
"Taoyuan County Government Environment Protection Bureau"
Project Title:
"Auditing project of the stationary source air pollutants analysis data quality"
Project Subject:
"This auditing was designed for data quality of air pollutant analysis from June 2018 to December 20
Project Year:
2018
Organizer:
"Environmental Analysis Laboratory"
Project Title:
"Study of Environmental Forensic Technology Development (2/4)-IC, LC/MS/MS and LC/Q-TOF Forensic Tec
Project Subject:
"The purpose of this study was to develop the IC、LC/MS/MS and LC/Q-TOF forensic technology for ident
Project Year:
2014
Organizer:
"Environmental Analysis Laboratory"
行政院環境保護署 的其他資料集
使用中機動車輛噪音資料-機車
不定期更新更新,275謝先生 | 02-23712121#6403 | 2023-07-30 01:03:30
行政院環境保護署全國工業區年度備查案件狀態統計表
不定期更新更新,105詹小姐 | 02-2383-2389#8204 | 2022-01-15 01:12:19
行政院環境保護署經過飲用水水源水質保護區之環境影響說明書件
每2月更新,55黃先生 | 02-23117722#2748 | 2023-08-05 01:01:04
行政院環境保護署列管社區下水道名單
不定期更新,49洪先生 | 02-2311-7722#2833 | 2022-01-14 01:23:07
行政院環境保護署緊急防制辦法空品狀況
每小時更新更新,100謝小姐 | 02-23117722轉2386 | 2022-01-14 01:05:55
行政院環境保護署
特殊性工業區品保品管後監測值資料檔(氣象監測項目)
每年更新更新,154丁先生 | 02-2371-2121#6101 | 2022-01-15 01:07:02
行政院環境保護署焚化廠底渣原始檢測資料
每1月更新,250莊先生 | 04-22521718#53523 | 2023-08-07 01:02:33
行政院環境保護署臭氧8hr平均值(每日提供17筆)
每1日更新,170陳先生 | 02-2311-7722#2386 | 2023-08-08 00:58:48
行政院環境保護署PM2.5化學成分監測數據
每1月更新,185蘇先生 | (03)491-5818#2204 | 2023-07-27 01:03:08
行政院環境保護署空氣品質監測即時影像資料(發布)
每10分更新,34陳先生 | 02-2311-7722#2386 | 2023-08-09 01:05:51
行政院環境保護署
面源網格空氣污染排放量(TWD97)
每2年更新,133劉小姐 | 02-23117722#6111 | 2023-07-30 01:04:44
行政院環境保護署環保專責(技術)人員合格證書申請表
不定期更新更新,45魏小姐 | 03-402-0789#605 | 2022-01-15 01:10:45
行政院環境保護署空氣污染物濃度測值
每1月更新,185顏先生 | 02-23117722#2109 | 2023-07-27 01:01:30
行政院環境保護署環境教育(行政)人員(經歷)認證申請書
不定期更新,41蘇小姐 | (03)4020789分機669 | 2022-01-15 01:10:54
行政院環境保護署地下水污染管制區
不定期更新更新,39賴小姐 | 02-2383-2389#8102 | 2022-01-15 01:16:39
行政院環境保護署
新化學物質及既有化學物質資料登錄工具說明
不定期更新更新,45蔡先生 | 02-23257399#55723 | 2023-08-09 01:05:35
行政院環境保護署行政院環境保護署環境保護基金附屬單位會計月報
不定期更新,42蘇小姐 | 02-23117722#2193 | 2022-01-15 01:09:33
行政院環境保護署前瞻基礎建設計畫特別預算
不定期更新更新,52劉小姐 | 02-2311-7722#2156 | 2022-01-15 01:09:51
行政院環境保護署行政院環境保護署前瞻基礎建設計畫特別預算會計月報
每1月更新,52鄭小姐 | 02-23117722#2156 | 2023-08-09 01:05:39
行政院環境保護署空氣品質小時值_高雄市_前鎮站
每1時更新,179陳先生 | 02-2311-7722#2386 | 2023-08-02 00:57:38
行政院環境保護署
旅館或觀光旅館之興建或擴建類別環境影響說明書
每2月更新,62黃先生 | 02-23117722#2748 | 2023-08-05 01:01:08
行政院環境保護署環境教育人員認證展延 【常見問答】
不定期更新,46蘇小姐 | (03)4020789分機669 | 2022-01-15 01:11:10
行政院環境保護署台灣地區垃圾處理場(廠)互惠緊急支援要點
不定期更新,36蔡先生 | 04-2252-1718#53508 | 2022-01-15 01:13:13
行政院環境保護署縣市(臺南市)小時值-每小時
每1時更新,143陳先生 | 02-2311-7722#2386 | 2023-08-02 00:58:44
行政院環境保護署應回收廢棄物(廢輪胎類)回收量資料
每年更新更新,49廖小姐 | 02-2370-5888#3103 | 2022-01-14 01:24:37
行政院環境保護署
中科后里環評監督小組會議紀錄
不定期更新更新,71陳先生 | 04-22521718#51207 | 2022-01-14 01:21:56
行政院環境保護署縣市清運機具統計資料
每半年更新更新,39陳小姐 | (04)2252-1718#53406 | 2022-01-14 01:22:13
行政院環境保護署全國場址新增列管及解列統計表
不定期更新更新,127賴小姐 | 02-2383-2389#8102 | 2022-01-15 01:12:12
行政院環境保護署河川水質監測站位置圖
不定期更新更新,37謝小姐 | 02-2311-7722#2386 | 2022-01-15 01:16:38
行政院環境保護署事業廢棄物申報統計
每1年更新,127顏先生 | 02-23117722#2109 | 2023-07-30 01:00:57
行政院環境保護署