中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2011年
35期
78-83
,共6页
周宏仓%肖旭%何都良%Nana Agyemang Prempeh%章文斌%谢文杰%徐露
週宏倉%肖旭%何都良%Nana Agyemang Prempeh%章文斌%謝文傑%徐露
주굉창%초욱%하도량%Nana Agyemang Prempeh%장문빈%사문걸%서로
1,8-二氮杂二环[5%4%0]十一碳-7-烯%颗粒活性炭%吸附剂%性能%CO2
1,8-二氮雜二環[5%4%0]十一碳-7-烯%顆粒活性炭%吸附劑%性能%CO2
1,8-이담잡이배[5%4%0]십일탄-7-희%과립활성탄%흡부제%성능%CO2
1,8-diazabicyclo[5,4,0]undec-7-ene (DBU)%granular activated carbon (GAC)%adsorbent%performance%CO2
为了实现烟气CO2的低成本、高效捕集,研究负载1,8-二氮杂二环[5,4,0]十一碳-7-烯(1,8-diazabicyclo[5,4,0]undec-7-ene,DBU)的颗粒活性炭(granular activated carbon,GAC)吸附剂对CO2捕集性能。DBU负载率越高,吸附剂比表面积、总孔容积和微孔容积越小,平均孔径与负载率呈明显的负相关性;Langrnuir模型是拟合DBU在GAC上吸附行为拟合优度最佳的模型,DBU在GAC上单分子层吸附要多于多分子层吸附;DBU-GAC吸附剂在低于140℃时具有良好的热稳定性,DBU能抑制吸附剂水分蒸发,有利于DBU与CO2耗水反应;DBU溶液对CO2具有很高的捕集效率,是常用-乙醇胺-甲基二乙醇胺(monoethanolamine-methyl—diethanolamine,MEA-MDEA)复合胺溶液的2.6~3。3倍;GAC负载适量DBU对模拟烟气CO2具有良好的捕集效率,消除膜封效应能提高DBU-GAC吸附剂对CO2的吸附容量。
為瞭實現煙氣CO2的低成本、高效捕集,研究負載1,8-二氮雜二環[5,4,0]十一碳-7-烯(1,8-diazabicyclo[5,4,0]undec-7-ene,DBU)的顆粒活性炭(granular activated carbon,GAC)吸附劑對CO2捕集性能。DBU負載率越高,吸附劑比錶麵積、總孔容積和微孔容積越小,平均孔徑與負載率呈明顯的負相關性;Langrnuir模型是擬閤DBU在GAC上吸附行為擬閤優度最佳的模型,DBU在GAC上單分子層吸附要多于多分子層吸附;DBU-GAC吸附劑在低于140℃時具有良好的熱穩定性,DBU能抑製吸附劑水分蒸髮,有利于DBU與CO2耗水反應;DBU溶液對CO2具有很高的捕集效率,是常用-乙醇胺-甲基二乙醇胺(monoethanolamine-methyl—diethanolamine,MEA-MDEA)複閤胺溶液的2.6~3。3倍;GAC負載適量DBU對模擬煙氣CO2具有良好的捕集效率,消除膜封效應能提高DBU-GAC吸附劑對CO2的吸附容量。
위료실현연기CO2적저성본、고효포집,연구부재1,8-이담잡이배[5,4,0]십일탄-7-희(1,8-diazabicyclo[5,4,0]undec-7-ene,DBU)적과립활성탄(granular activated carbon,GAC)흡부제대CO2포집성능。DBU부재솔월고,흡부제비표면적、총공용적화미공용적월소,평균공경여부재솔정명현적부상관성;Langrnuir모형시의합DBU재GAC상흡부행위의합우도최가적모형,DBU재GAC상단분자층흡부요다우다분자층흡부;DBU-GAC흡부제재저우140℃시구유량호적열은정성,DBU능억제흡부제수분증발,유리우DBU여CO2모수반응;DBU용액대CO2구유흔고적포집효솔,시상용-을순알-갑기이을순알(monoethanolamine-methyl—diethanolamine,MEA-MDEA)복합알용액적2.6~3。3배;GAC부재괄량DBU대모의연기CO2구유량호적포집효솔,소제막봉효응능제고DBU-GAC흡부제대CO2적흡부용량。
The performance of 1,8-diazabicyclo [5,4,0]undec-7-ene (DBU) loaded on granular activated carbon (GAC) was preliminary researched to realize CO2 capture in flue gas with low cost and high efficiency. The higher the DBU load rate, its surface area, total pore volume and pore volume become smaller while the average pore size is negatively correlated to DBU load rate. The model obtained that the best of goodness of fit about the DBU adsorption on GAC is the Langmuir model, and the mono-molecular layer adsorption of DBU on GAC is greater than the multi-molecular layer adsorption. DBU-GAC adsorbent has a good thermal stability below 140~C, and DBU can effectively keep the water on the adsorbent from evaporating which is benefit to the reaction of DBU, H20, and CO2. The DBU solution performs high absorption efficiency to CO2, and its absorption capacity is about 2.6-3.3 times to monoethanolamine-methyldiethano- lamine (MEA-MDEA) solution. DBU-GAC adsorbent with an appropriate DBU load rate has a good effect on the adsorption of CO2 in simulated flue gas, and the film sealing effect of DBU on GAC must be eliminated to improve the adsorption capacity of adsorbent