以γ- al2o3、α- al2o3和mgal2o3为原料制备的喷雾干燥mn基氧载体的性能比较

J. Baek, Ui-Sik Kim, H. Jo, T. Eom, Joong-Beom Lee, H. Ryu
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摘要

在化学循环燃烧中,纯氧通过称为氧载体的固体颗粒转移到燃料中。化学环燃烧过程通常采用循环流化床过程进行燃料燃烧和还原氧载体的再生。氧载体的性能随活性金属氧化物和所使用的原始支撑材料而变化。本文采用不同的原料载体制备了喷雾干燥的锰基氧载体,并对其物理性能和氧传递性能进行了研究,确定了所采用的原料载体适合于喷雾干燥的氧化锰氧载体。用喷雾干燥机制备了由70%的二氧化锰和30%的载体组成的氧载体。采用- al2o3和- al2o3两种不同类型的al2o3和mgal2o3作为起始原料支撑材料。在1100℃以下的煅烧温度下,-Al 2o3制备的氧载体机械强度高于工业流化催化裂化催化剂,而-Al 2o3和MgAl 2o3制备的氧载体需要更高的煅烧温度。由- al2o3制备的氧载体的氧传递能力小于3 wt%。相比之下,-Al 2o3和MgAl 2o3制备的氧载体表现出更高的氧传递能力,分别约为3.4 wt%和4.4 wt%。在所制备的锰基氧载体中,mgal2o4制备的锰基氧载体在ch4、h2和CO的化学环燃烧中表现出优异的氧传递性能,但需要1400℃的高煅烧温度才能获得较强的机械强度。因此,需要进一步研究开发新的支撑成分,以降低煅烧温度而不降低氧传递性能。
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Performance Comparison of Spray-dried Mn-based Oxygen Carriers Prepared with γ-Al 2 O 3 , α-Al 2 O 3 , and MgAl 2 O 4 as Raw Support Materials
In chemical-looping combustion, pure oxygen is transferred to fuel by solid particles called as oxygen carrier. Chemical-looping combustion process usually utilizes a circulating fluidized-bed process for fuel combustion and regeneration of the reduced oxygen carrier. The performance of an oxygen carrier varies with the active metal oxide and the raw support materials used. In this work, spray-dried Mn-based oxygen carriers were prepared with different raw support materials and their physical properties and oxygen transfer performance were investigated to determine that the raw support materials used are suitable for spray-dried manganese oxide oxygen carrier. Oxygen carriers composed of 70 wt% Mn 3 O 4 and 30 wt% support were produced using spray dryer. Two different types of Al 2 O 3 ,  -Al 2 O 3 and  -Al 2 O 3 , and MgAl 2 O 4 were applied as starting raw support materials. The oxygen carrier prepared from  -Al 2 O 3 showed high mechanical strength stronger than commercial fluidization catalytic cracking catalyst at calcination temperatures below 1100  C, while the ones prepared from  -Al 2 O 3 and MgAl 2 O 4 required higher calcination temperatures. Oxygen transfer capacity of the oxygen carrier prepared from  -Al 2 O 3 was less than 3 wt%. In comparison, oxygen carriers prepared from  -Al 2 O 3 and MgAl 2 O 4 showed higher oxygen transfer capacity, around 3.4 and 4.4 wt%, respectively. Among the prepared Mn-based oxygen carriers, the one made from MgAl 2 O 4 showed superior oxygen transfer performance in the chemical-looping combustion of CH 4 , H 2 , and CO. However, it required a high calcination temperature of 1400 °C to obtain strong mechnical strength. Therefore, further study to develop new support compositions is required to lower the calcination temperature without decline in the oxygen transfer performance.
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