利用二氧化鈦/活性碳電極進行電容去離子處理鄰苯二甲酸氫鉀之研究;The Removal of Potassium Hydrogen Phthalate via Capacitive Deionization Using TiO2/AC Composite Electrode

NCUIR > Engineering College > Graduate Institute of Environmental Engineering > Electronic Thesis & Dissertation > Item 987654321/77996

Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/77996

Title:	利用二氧化鈦/活性碳電極進行電容去離子處理鄰苯二甲酸氫鉀之研究;The Removal of Potassium Hydrogen Phthalate via Capacitive Deionization Using TiO2/AC Composite Electrode
Authors:	羅弘駿;LUO, HONG-JYUN
Contributors:	環境工程研究所
Keywords:	電吸附;溶膠凝膠法;有機物;electrosorption;sol-gel method;organic compound
Date:	2018-07-20
Issue Date:	2018-08-31 15:07:23 (UTC+8)
Publisher:	國立中央大學
Abstract:	廢污水的有機污染主要來自塑料、染料、農藥及食品加工業，其對環境與生態具有一定程度之危害，包括降低水中溶氧、產生臭味等等。本研究是製備活性碳電極並透過電容去離子實驗從水溶液中去除有機化合物(鄰苯二甲酸氫鉀，KHP)。除此之外，探討流速、初始濃度和施加電壓對電容去離子的脫鹽性能的影響。另一方面，採用溶膠凝膠法製備二氧化鈦/活性碳複合式電極，並進一步探討了添加二氧化鈦是否能提高CDI脫鹽效率。利用pseudo-first-order、pseudo-second-order、Elovich 和intra-particle diffusion四種動力吸附模式來對活性碳電吸附KHP進行模擬。電極材料經由特性分析的結果顯示中孔比均大於80％，說明中孔在本研究中起著重要作用。透過XRD分析可以知道在500℃高溫鍛燒下製備了最佳強度的銳鈦礦結晶。由活性碳電極的電吸附結果得知KHP在流速60 ml/min，初始濃度50 ppm下可以達到較優異的電吸附效果。活性碳電吸附磷酸鹽類的動力學模式符合pseudo-second-order模式。 10wt.％的二氧化鈦/活性碳複合式電極較AC電極具有更好的去除KHP效果，且吸附循環性能顯示10wt％的二氧化鈦/活性碳複合式電極較AC電極具有更好的耐用性和穩定性。 ;The sources of organic pollution in the environment mainly include the wastewater from food factories, petrochemicals, pesticides, plastics, dyes, and etc. The impact of organic compounds for environmental, including the decline of dissolved oxygen in aquaculture, difficult to resolve in water and creature, and etc. To prepare of activated carbon electrode to remove organic compound (potassium hydrogen phthalate, KHP) via CDI experiment from aqueous solutions. On the other hand, the influences of flow rate, initial concentration and applied voltage are investigated. TiO2/AC composite powder was prepared with the sol–gel method and further discuss about the addition of TiO2 whether enhance CDI desalination efficiency than the carbon electrode. Four kinetic models, including pseudo-first-order, pseudo-second-order, Elovich, and intra-particle diffusion models, were employed to fit the electrosorption kinetic of KHP. All the mesopore ratios of electrode material are higher than 80%, which indicate that the mesopore play an important role in this study. From XRD analysis of the TiO2/AC composite electrode indicates that can obtain a good anatase crystalline by the sol-gel method and the optimum anatase crystal strength was prepared at the 500℃. It is possible to know from the CDI experiment that the best operating conditions of AC electrode for removing KHP were the flow rate of 60 ml/min and the initial concentration of 50 ppm. The adsorption kinetics could be described by the pseudo-second-order model. The 10 wt.% TiO2/AC composite electrode has better removal amount of KHP than the AC electrode, which means the addition of titanium dioxide has the effect of improving the activated carbon. In addition, the adsorption cycle performance of CDI indicates that 10 wt.% TiO2/AC composite electrode has better durability and stability than AC electrode.
Appears in Collections:	[Graduate Institute of Environmental Engineering ] Electronic Thesis & Dissertation

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