結合非熱電漿技術及光觸媒轉化二氧化碳之研究;Study on Combining Non-Thermal Plasma with Photocatalysis for Carbon Dioxide Conversion

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题名:	結合非熱電漿技術及光觸媒轉化二氧化碳之研究;Study on Combining Non-Thermal Plasma with Photocatalysis for Carbon Dioxide Conversion
作者:	張木彬
贡献者:	國立中央大學環境工程研究所
关键词:	全球暖化;二氧化碳;光觸媒;非熱電漿;電漿觸媒;Global warming;carbon dioxide;photocatalyst;non-thermal plasma;plasma catalysis
日期:	2018-12-19
上传时间:	2018-12-20 14:21:33 (UTC+8)
出版者:	科技部
摘要:	工業革命後全球二氧化碳及其他溫室氣體之人為排放量大幅增加，造成全球暖化(Global Warming)。爰此，如何有效地降低人為二氧化碳的排放量已成為近年來各國努力的目標。碳捕捉、再利用與封存(Carbon Capture, Utilization and Storage, CCUS)為目前各國積極開發的減碳技術，其中將二氧化碳轉化為有用之產物為碳再利用之一環，包括合成氣、甲醇及尿素等。二氧化碳轉化技術包含觸媒轉化、光觸媒轉化及電漿轉化，其中光觸媒技術因為可利用太陽能而受到矚目。另外，電漿反應過程可釋出不同波長的光子，如果將其作為光觸媒的起始劑，將可有效提升二氧化碳的轉化率及能量效率。本研究嘗試結合非熱電漿及光觸媒以有效轉化二氧化碳，分為三個階段：(一)經由觸媒的物化分析及電漿診斷探討非熱電漿和光觸媒的交互作用、(二)經由調整電漿及觸媒的不同結合方式，進一步提升轉化率及(三)探討光觸媒和鐵電性材料的組合，並嘗試結合具備鐵電性及光觸媒性質的先進材料與電漿以提升協同效應，預期可開發非熱電漿及光觸媒系統將二氧化碳與甲烷有效轉化為合成氣，並大幅提升反應過程的能源利用效率，使其具有大規模實廠化的條件。研發成果預期可釐清電漿與光觸媒之協同效應並可對國內及全球之溫室氣體減量工作做出具體貢獻。 ;After industrialization, anthropogenic emission of carbon dioxide (CO2) and other greenhouse gases (GHGs) increases significantly and resulting to global warming. Therefore, how to effectively reduce anthropogenic CO2 emission has become a global challenge. Carbon capture, utilization and storage (CCUS) is currently developed by many countries to reduce CO2 emission, among them, converting CO2 into useful products including syngas, methanol and urea is one potential technique of carbon utilization. CO2 converting techniques include catalysis, photocatalysis and plasma. Photocatalysis has received much attention due to its effectiveness and potential to utilize solar energy. Furthermore, photons with various wavelengths can be emitted during discharge in a typical plasma reactor, and photons with appropriate wavelength can be utilized to initiate photocatalysis to improve CO2 conversion efficiency. This study aims to combine photocatalyst and non-thermal plasma to convert CO2 efficiently and can be divided into three stages: the first is to discuss the interactions between photocatalyst and non-thermal plasma via the characterization of the photocatalyst developed and kinetic study of non-thermal plasma, the second is to further improve CO2 conversion efficiency by optimizing the way to combine photocatalyst and non-thermal plasma and the last is to synthesize the advanced material which has both properties of ferroelectricity and photocatalysis to combine with non-thermal plasma to enhance CO2 conversion and to reveal the relationships between photocatalysis and ferroelectricity. We expect that CO2 can be effectively converted into syngas with via appropriate combination of plasma and photocatalyst and significantly increased energy efficiency to meet the requirement to be commercialized. The results are expected to elucidate the synergistic effects between non-thermal plasma and photocatalysis and specifically contribute to domestic and worldwide GHGs reduction.
關聯:	財團法人國家實驗研究院科技政策研究與資訊中心
显示于类别:	[環境工程研究所 ] 研究計畫

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