完整後設資料紀錄
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dc.contributor.author廖昌郁en_US
dc.contributor.authorChang-Yu Liaoen_US
dc.contributor.author黃志彬en_US
dc.contributor.authorChih-Pin Huangen_US
dc.date.accessioned2014-12-12T02:55:59Z-
dc.date.available2014-12-12T02:55:59Z-
dc.date.issued2005en_US
dc.identifier.urihttp://140.113.39.130/cdrfb3/record/nctu/#GT009319515en_US
dc.identifier.urihttp://hdl.handle.net/11536/78931-
dc.description.abstract聚氯化鋁混凝劑為目前廣泛使用於水及廢水處理中的水化學藥劑,其具有處理效果佳、用藥量及污泥量少、不易消耗水體鹼度及較不受溫度的影響等優點,有逐漸取代傳統硫酸鋁及氯化鋁混凝劑的趨勢。由於聚氯化鋁為經由預水解而製備的無機高分子混凝劑,容易因製備條件的異動而導致有效混凝作用基 (Al13)的含量變動極大。因此,目前混凝科學的研究領域為致力於開發各種具有低耗能、穩定、快速及能夠量產的製備技術,並且著力於純化後之聚合鋁物種 (Al13)的混凝機制探討。期望能藉由各種提純的技術將Al13自聚氯化鋁中分離、濃縮並純化,探討Al13純度達90 %以上之PACl-Al13混凝劑於混凝過程中的表現,並逐步釐清單核鋁物種、聚合鋁物種及膠體鋁物種各自的混凝作用特性。 本研究利用四種不同鋁型態分佈及轉化特性的聚氯化鋁,針對二氧化矽顆粒廢水進行混凝沉澱實驗的評估。首先著眼於混凝劑的鋁型態特性分析,隨後探討操作pH值及加藥量對處理效果的影響,最後則是綜合分析各個混凝劑於處理後的水質參數、顆粒聚集動力學及污泥的特性,搭配混凝劑的基本鋁型態特性進行各個混凝劑處理二氧化矽顆粒廢水的混凝機制推論。 研究結果顯示,隨著混凝劑預水解程度的提升,聚合鋁物種 (Al13)對溶液的穩定性越高,且較不受溶液pH值變化及熟化時間延長而發生進一步的轉化,相對所表現出的混凝效果亦隨著鹽基比的增加而成效越好。低鹽基比的Alum及PACl14適用於中性偏酸性的pH範圍;高鹽基比的PACl21及PACl-Al13則適用於鹼性範圍。對於帶有極負界達電位的二氧化矽顆粒而言,四種混凝劑皆表現出以吸附-電性中和為最適用的混凝機制,然而於適當的操作條件下,Alum及PACl14可利用沉澱掃除為混凝機制,而PACl21則可利用Electrostatic patch effect為輔助的混凝機制,PACl-Al13則可能具有Electrostatic patch effect或架橋作用的混凝機制。zh_TW
dc.description.abstractPolyaluninum chloride (PACl) has been widely used in water and wastewater treatments, substituting alum and AlCl3. It is superior to other coagulants in its good performance including the low dosage demand and low sludge volume, less alkalinity consumption and independency of temperature. PACl is produced by prehydrolyzation of AlCl3 and the content of Al13 varies with the condition of manufacturing. Many manufacturing processes and purification methods of PACl have been developed by researchers. They have concentrated on production of PACl with stable and high Al13 content at low energy cost. The high Al13- containing PACl has been used in the study of coagulation to clear the individual role of monomeric Al, polymeric Al and colloidal Al during coagulation process. This study assessed the coagulation and sedimentation of silica particles by using four PACls with different aluminum speciation and transformation characteristics. The effect of pH on coagulants speciation and the coagulation efficiencies were investigated. The quality of the treated water, particle aggregation dynamics and sludge characteristics were evaluated to investigate the coagulation mechanisms of individual Al species on silica particles. Experimental results proved that the Al13 tridecamer produced in high degree of neutralization (γ value) was more stable in the solution and less transformable with the variation of solution pH and aging time. The coagulation performance of each PACls was also improved with the increase in degree of neutralization. Alum and PACl14, both with low γ value, performed best in neutral and acidic pH ranges, while PACl21 and PACl-Al13 worked most efficiently in alkali pH. The coagulation by four coagulants demonstrated that adsorption and charge neutralization were the most effective coagulation mechanism in treating silica particles of extremely negative zeta potential. However, under certain circumstances, sweep flocculation could occur in the coagulation of Alum and PACl14. On the other hand, the coagulation of PACl21 could be supplemented by electrostatic patch effect (EPE), while that of PACl-Al13 might be effected by the combination of EPE and inter-particle bridging.en_US
dc.language.isozh_TWen_US
dc.subject二氧化矽顆粒zh_TW
dc.subject混凝劑zh_TW
dc.subject聚氯化鋁zh_TW
dc.subject聚十三鋁zh_TW
dc.subject光纖膠羽偵測儀zh_TW
dc.subjectSilica particleen_US
dc.subjectCoagulanten_US
dc.subjectPolyaluminum chlorideen_US
dc.subjectAl13en_US
dc.subjectPhotometric dispersion analyzeren_US
dc.title以鋁鹽混凝劑處理二氧化矽顆粒廢水─鋁型態分佈及轉化特性的影響zh_TW
dc.titleTreatment of Wastewater Containing Silica Particles with Aluminum Coagulants ─ Effects of Al Speciation and Transformationen_US
dc.typeThesisen_US
dc.contributor.department環境工程系所zh_TW
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