Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/5866
標題: 比較活性碳吸附和蓄熱式焚化爐處理膠帶製造業排放揮發性有機物效率之研究
Comparisons of Removal Efficiency of VOCs Emitted from Adhesive Tape Industry by Using Activated Carbon Adsorption and Regenerative Thermal Oxidizer
作者: 王佑仟
Wang, Yu-Chien
關鍵字: 蓄熱式焚化爐;Regenerative thermal oxidizer;活性碳吸附;膠帶製造業;揮發性有機物;處理效率;ctivated carbon adsorption;Adhesive tape industry;VOCs;Removal efficiencies
出版社: 環境工程學系所
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摘要: 
膠帶製造業由於生產過程需仰賴大量有機溶劑,是國內主要之揮發性有機物排放來源之一,而目前膠帶製造業普遍使用之揮發性有機物處理技術以活性碳吸附溶劑回收設備及焚化方式為主。本研究以膠帶製造業中四個製程分別採用活性碳吸附設備及蓄熱式焚化爐之實廠案例,調查其防制設備前、後端揮發性有機物之排放濃度及排放量檢測結果,且分析其排放揮發性有機物之成分。進而探討膠帶製造業不同製程之揮發性有機物排放特性、防制設備處理效率的差異,排放揮發性有機物之關鍵物種對防制設備處理之影響,並分析防制設備之選用對法規管制符合情況及污染排放減量的效益。
調查結果發現油性膠帶製程排放主要污染物為甲苯、乙酸乙酯,離型紙製程排放主要成份為甲苯。油性膠帶製程使用活性碳吸附設備之處理效率為92.6%,而使用蓄熱式焚化爐處理分別可達96.9%及97.9%,此外離型紙製程使用活性碳吸附設備則可達99.4%。檢測結果顯示皆可符合法規要求92%之規定,惟油性膠帶製程使用活性碳吸附設備處理效率較其他製程低。綜合廢氣排放特性、處理效率、法規管制標準及空污費減量效益等考量,使用有機溶劑較單純之離型紙製程可採用活性碳吸附再生設備,而油性膠帶製程採蓄熱式焚化爐方式處理揮發性有機物建議可列為該行業製程優先評估之處理技術。

The manufacturing process of adhesive tape industry needs to use large amounts of organic solvents. It’s one of the main sources of emissions of volatile organic compounds (VOCs) in Taiwan. Activated carbon adsorption and incineration are currently used to reduce VOCs in adhesive tape industry. In order to understand the characteristics of VOCs emissions, four manufacturing processes in adhesive tape industry which equipped with activated carbon adsorbent or regenerative thermal oxidizer were chosen as a case study. The species composition and concentration of VOCs were measured in this study. The purpose of this study was to investigate the characteristics of VOCs emissions and removal efficiency of control equipment. Furthermore, to analyze the benefits of choosing the suitable VOCs emissions control technology.
The results showed the major VOCs components were toluene and ethyl acetate from adhesive tape manufacturing process and toluene from release paper manufacturing process. The removal efficiency of VOCs by using activated carbon adsorption in adhesive tape manufacturing process was 92.6%, and two regenerative thermal oxidizers were 96.9% and 97.9%, respectively. Furthermore, the efficiency for the release-paper manufacturing process by using activated carbon adsorption was up to 99.4%. All of the results complied with the emission standards (92%), but removal efficiency of adhesive tape manufacturing process by using the activated carbon adsorption was lower than those of the other processes. After comprehensively analyzing the characteristics of VOCs emissions, the removal efficiencies, the emission standards and the benefit of reducing air pollution fee, the release paper manufacturing process can use activated carbon adsorption to remove and recycle toluene. However, the regenerative thermal oxidizer is more suitable for the use of removing VOCs in adhesive tape manufacturing process.
URI: http://hdl.handle.net/11455/5866
其他識別: U0005-1308201321152400
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