查詢結果分析
相關文獻
- 以電混凝法脫色偶氮染料Orange II之研究
- 氧化鈰觸媒對偶氮染料低溫礦化可行性之研究
- A Combined Chemical Coagulation-ozonation Process to Treat High Strength Wastewater from Dye Manufacturing Plant
- Bacterial Decolourization Enhancement Using a Constructed Mixed Consortium
- 以零價鐵脫色Acid Black 24偶氮染料廢水之研究
- 開發具新穎性之本土微生物應用於染料廢水處理之可行性評估
- 本土染料脫色菌株Proteus hauseri同時脫色與產電之可行性評估
- 利用MnO₂與MnO₂/O₃處理染料廢水之可行性研究
- 以不銹鋼網覆膜奈米光觸媒TiO₂光催化偶氮染料Orange G脫色影響之研究
- Biologically-Feasible Screening Strategy for Optimal Decolorization Strain to Diazo Evercion Red H-E7B
頁籤選單縮合
題名 | 以電混凝法脫色偶氮染料Orange II之研究=A Study on the Decolorization of Orange II Azo-Dye by Electrocoagulation Technique |
---|---|
作者 | 李宏凱; 張時瑜; 周偉龍; 王志達; 葉品辰; 黃衍翔; Li, Hung-kai; Chang, Shih-yu; Chou, Wei-lung; Wang, Chih-ta; Yeh, Pin-tsen; Huang, Yen-hsiang; |
期刊 | 弘光學報 |
出版日期 | 20070500 |
卷期 | 50 2007.05[民96.05] |
頁次 | 頁243-255 |
分類號 | 445.462 |
語文 | chi |
關鍵詞 | 偶氮染料; 電混凝; 染料廢水; 脫色; Azo-dye; Electrocoagulation; Dyeing wastewater; Decolorization; |
中文摘要 | 臺灣主要的工業用水之一為紡織和染整工業,紡織工業的大量用水造成了一些環境上的問題。排入水體後,容易引起視覺上之不悅,加上染料種類繁多、化學成分複雜,致使染整業一向被列為高污染的工業之一。此外,染料的排放也包含了一些毒性、基因突變和致癌的化學物質。OrangeⅡ是屬於有機成份中的偶氮染料,是一種可以抗光解、抗氧化及抗酸鹼的染料,並且被大量使用於紡織染色產業中。目前染整業者一般以傳統之活性污泥法與化學混凝法來處理其放流水,生物處理法常因微生物馴養問題、染料之生物毒性、廢水中鹽類濃度過高等問題而無法正常運作,造成放流水未符合排放標準而排放入自然水體之中,對附近居民及周遭環境造成傷害。所以本研究將利用電混凝法進行偶氮染料OrangeⅡ之脫色處理,以可見光/紫外光光譜儀定量,並在批式反應槽中以改變不同電解質(Na₂SO₄、NaCl)之濃度在不同電壓及改變不同極板距離作為改變參數。實驗結果為在改變不同電解質濃度時也可以看出電解質濃度越濃有較好的脫色效率;而在改變不同電壓的情況下,電壓值越高有較好的脫色效率但會趨於平緩;而在改變極板距離時可得知極板之間距離越近也有較好的脫色效率。 |
英文摘要 | Textile dyeing industry is one of the major industrial water users in Taiwan, The large quantity of aqueous waste generated by textile industries has becomes an environmental problem. Moreover, dye effluent may contain chemicals, which are toxic, mutagenic, and carcinogenic. Orange II dye belongs to a class of organic compounds known as azo-dyes, which are abundantly used in textile industries for dyeing. Orange II dye is resistant to the degradation by light, and the action to oxygen. It is also resistant to common acids and bases. The biological process cannot effectively decolorize dye wastewater for most of the synthetic organic dyes, according to some commercial dye toxicity of the biomass. Thus, traditional biological treatment system and chemical coagulation may not conform to the National Discharge Standard. In this study, the electrocoagulation treatment of Orange II dye solution in a batch cell using Na₂SO₄ & NaCl as a supporting electrolyte. The effects of electrode distance, electrolyte concentrations, and applied potential strength were investigated. The effluent may cause environment contamination and threaten the health of community. The optimum operating range for each of these operating variables was experimentally determined. The experimental results revealed that the electrocoagulation method was found to be effective in removing of orange II. It has been found that the removal efficiency increased with the increasing electrolyte concentration. Higher applied potential strength increased the efficiency of color removal. As the electrode distance decreased, the removal efficiency of the color increases. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。