施信民2006-07-252018-06-282006-07-252018-06-282004-05-18http://ntur.lib.ntu.edu.tw//handle/246246/9387本研究以廢玻璃容器粉碎後之玻璃粉與氫氧 化鈣製備二氧化硫吸收劑，以評估其用在乾式或 半乾式煙道氣除硫法的可行性。玻璃粒徑越小， 製備所得吸收劑對二氧化硫之反應性越高。吸收 劑之鈣利用率隨著重量配比增加而增加，二氧化 硫捕捉率則在配比30/70 為最高。吸收劑反應性 隨漿化溫度、時間與水/固比增加而增加，但在 漿化溫度90 ℃、時間8 小時及水/固比10 之後， 其增加對反應性的影響不大。吸收劑的1 小時二 氧化硫捕捉率大約與其比表面積成正比。Sorbents were prepared from crushed recycled glass bottles and hydrated lime （HL ）,and the feasibility of using these sorbents in dry or semidry flue-gas desulfurization processes was evaluated. The sorbent reactivity toward SO2 increased as the particle size of glass decreased.The Ca utilization for the sorbents increased with increasing glass/HL weight ratio, however, the sorbent with a glass/HL ratio of 30/70 had the maximum SO2 capture.The sorbent reactivity increased as the slurrying temperature , time, and water/solid weight ratio increased and leveled off when they reached 90 ℃,8h,and 10/1,respectively. The 1h SO2 capture of a sorbent was proportional to its specific surface area in general.application/pdf191699 bytesapplication/pdfzh-TW國立臺灣大學化學工程學系暨研究所廢玻璃氫氧化鈣二氧化硫煙道氣除硫Recycled glassHydrated limeSO2Flue gas desulfurizationreporthttp://ntur.lib.ntu.edu.tw/bitstream/246246/9387/1/922214E002027.pdf