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dc.contributor.author蕭宏光en_US
dc.contributor.authorHsiao, Hung-Kuangen_US
dc.contributor.author蔡春進en_US
dc.contributor.authorTsai, Chuen-Jinnen_US
dc.date.accessioned2014-12-12T02:18:16Z-
dc.date.available2014-12-12T02:18:16Z-
dc.date.issued1996en_US
dc.identifier.urihttp://140.113.39.130/cdrfb3/record/nctu/#NT853515002en_US
dc.identifier.urihttp://hdl.handle.net/11536/62449-
dc.description.abstract本研究主要目的在於評估新型旋風器與10mm尼龍旋風器在工作場所測量可呼吸性粉塵濃度之採樣誤差,以及在實驗室測試新型旋風器之最佳採樣流量。 在工作場所測試時,以Marple個人多階衝擊器量測粉塵之粒徑分布,並根據新ACGIH規範算出可呼吸性粉塵之標準值,以作為比較新型旋風器與10mm尼龍旋風器測值準確性之參考。 首先在實驗室測試Marple個人衝擊器各階收集效率與粉塵負荷之關係以了解各階截取氣動直徑變化的情形,並作為工作場所測試時修正的依據。結果發現,在液體微粒方面,收集效率受粉塵負荷之影響不大,而在固體微粒方面,收集效率隨粉塵負荷增加而降低。 現場測試結果,製釉廠粉塵粒徑分布GSD平均為2.73,MMAD平均為11.1μm,在不同風速下旋風器可呼吸性粉塵測值與Marple衝擊器標準值的平均比值為1.133(10mm尼龍旋風器)及1.045(新型旋風器)。隨著風速由0.8m/s增加至2.3m/s,旋風器測值有接近Marple標準值之趨勢。而TSP對可呼吸性粉塵比值影響不大。鉛粉廠粉塵粒徑分布GSD平均為2.26,MMAD平均為4.82aμm,在不同風速下旋風器可呼吸性粉塵測值與 Marple衝擊器標準值的平均比值為l.069(10mm尼龍旋風器)及0.965(新型旋風器)。而風速與TSP對可呼吸性粉塵比值影響不大。 新型旋風器流量最佳化研究方面,經由理論及實驗驗證各流量下不同的收集效率並求出與新ACGIH規範的採樣偏差。針對粉塵粒徑分布GSD=2.5,MMAD=2,4,6,8,10,12μm各情形計算最佳化的新型旋風器採樣流量。隨著旋風器內部粉塵負荷由0mg增至3mg-最佳採樣流量由1.8-2L/min減小至1.6∼1.7L/min。zh_TW
dc.description.abstractThe study is to evaluate the sampling bias of new cyclone and 10 mm nylon cyclone in field sampling. The optimal flow rate of new cyclone was also tested in the laboratory. In field sampling. The Marple personal cascade impactor was used to measure the size distribution of dusts and calculate the standard RPM (Respirable Particulate Matter) concentration according to new ACGIH criteria. The effect of mass loading on collection efficiency for each stage of Marple impactor was tested in the laboratory as a measuring reference for field sampling. We found that mass loading has little effect on collection efficiency for liquid particles; while for solid particles, collection efficiency decreases as mass loading increases. In field sampling, the average GSD is 2.73 and the average MMAD is 11.1 μm for the dust distribution in the glaze factory1. The average ratio of RPM measured by cyclone to the standard RPM from Marple impactor is 1.133(10 mm nylon cyclone) and 1.045(new cyclone) at different wind speeds. As wind speed increases from 0.8 m/s to 2.3 m/s, the cyclone value approaches Marple impactor value. TSP has little effect on RPM ratio. The average GSD is 2.26 and the average MMAD is 4.82 μm for the dust distribution in the lead factory. The average ratio of RPM measured by cyclone to the standard RPM from Marple impactor is 1.069(10 mm nylon cyclone) and 0.965 (new cyclone) at different wind speeds. Different wind speeds and TSP have little effect on RPM ratio. As for optimization of the flow rate of new cyclone, we found the collection efficiency curves theoretically and experimentally at different flowrates to calculate the sampling bias according to new ACGIH criteria. Assuming GSD==2.5, MMAD=2,4,6,8,10 and 12 μm, the optimal flow rate ranges from 1.8∼2 L/min to 1.6∼1.7 L/min as mass loading ranges from 0 mg to 3 mg in new cyclone.en_US
dc.language.isozh_TWen_US
dc.subjectMarple個人多階衝擊器zh_TW
dc.subject10mm 尼龍旋風器zh_TW
dc.subject可呼吸性粉塵zh_TW
dc.subject新型旋風器zh_TW
dc.subjectMarple personal cascade impactoren_US
dc.subject10mm nylon cycloneen_US
dc.subjectrespirable particulate matteren_US
dc.subjectnew cycloneen_US
dc.title可呼吸性個人塵採樣器之準確度研究zh_TW
dc.titleAccuracy of a Personal Respirable Dust Sampleren_US
dc.typeThesisen_US
dc.contributor.department環境工程系所zh_TW
Appears in Collections:Thesis