化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
10期
2446-2452
,共7页
郗艳荣%刘永卓%郭庆杰%程煜%田红景
郗豔榮%劉永卓%郭慶傑%程煜%田紅景
치염영%류영탁%곽경걸%정욱%전홍경
复合载氧体%流化床%化学链气化%循环反应性%制备
複閤載氧體%流化床%化學鏈氣化%循環反應性%製備
복합재양체%류화상%화학련기화%순배반응성%제비
compound oxygen carrier%fluidized bed%chemical-looping gasification(CLG)%circular mechanism%preparation
采用湿式混合成粒法得到了一种复合型钙基载氧体,并分别在综合热分析仪和流化床上考察了其反应活性和循环反应性能。结果如下:浸渍Ni离子能够明显降低载氧体与煤反应的起始温度,加快反应速率,缩短反应时间。增加 Ni离子浸渍量对反应速率的影响不明显,但反应时间略有缩短。选择 CaAlNi10载氧体进行了10次还原-氧化循环实验,固体产物和气体产物分析表明NiO在循环过程中对S的释放有一定控制作用;CaAlNi载氧体具有较高的再生率和良好的持续循环反应能力。结果表明,制备的CaAlNi载氧体适用于工业生产。
採用濕式混閤成粒法得到瞭一種複閤型鈣基載氧體,併分彆在綜閤熱分析儀和流化床上攷察瞭其反應活性和循環反應性能。結果如下:浸漬Ni離子能夠明顯降低載氧體與煤反應的起始溫度,加快反應速率,縮短反應時間。增加 Ni離子浸漬量對反應速率的影響不明顯,但反應時間略有縮短。選擇 CaAlNi10載氧體進行瞭10次還原-氧化循環實驗,固體產物和氣體產物分析錶明NiO在循環過程中對S的釋放有一定控製作用;CaAlNi載氧體具有較高的再生率和良好的持續循環反應能力。結果錶明,製備的CaAlNi載氧體適用于工業生產。
채용습식혼합성립법득도료일충복합형개기재양체,병분별재종합열분석의화류화상상고찰료기반응활성화순배반응성능。결과여하:침지Ni리자능구명현강저재양체여매반응적기시온도,가쾌반응속솔,축단반응시간。증가 Ni리자침지량대반응속솔적영향불명현,단반응시간략유축단。선택 CaAlNi10재양체진행료10차환원-양화순배실험,고체산물화기체산물분석표명NiO재순배과정중대S적석방유일정공제작용;CaAlNi재양체구유교고적재생솔화량호적지속순배반응능력。결과표명,제비적CaAlNi재양체괄용우공업생산。
In this test,one kind of Ca-based compound oxygen carrier was prepared by chemical impregnation and further processed by extruding granulation device. The method is characterized by simple operation and high yield,which was suitable for large-scale preparation of oxygen carrier. An investigation into the reduction reactivity between compound oxygen carriers and the coal was carried out in TGA and a fluidized bed,respectively. The reaction rate for the compound oxygen carrier impregnated with nickel nitrate,reacting with coal was much faster than that for fresh CaSO4 oxygen carrier. The reaction between CaAlNi oxygen carrier and coal took place at a lower temperature than that between fresh CaSO4 oxygen carrier and coal. Increasing the immersing amount of Ni ions has no effect on the reaction rate,which shortens the reaction time slightly. Experiment of CaAlNi10 oxygen carrier and coal was carried out in a fluidized bed by ten redox cycles. Further,it showed that NiO was able to capture S which released by CaSO4.The CaAlNi10 oxygen carrier particles were featured by the high reactivity and regeneration rate and excellent cycling stability in the fluidized bed during ten redox cycles. Therefore,the CaAlNi oxygen carrier is appropriate for industrial production.