辽宁石油化工大学学报
遼寧石油化工大學學報
료녕석유화공대학학보
JOURNAL OF LIAONING UNIVERSITY OF PETROLEUM & CHEMICAL TECHNOLOGY
2014年
6期
11-15
,共5页
超增溶%自组装%纳米%Ni-Al2 O3%体相%表面活性剂%分散性
超增溶%自組裝%納米%Ni-Al2 O3%體相%錶麵活性劑%分散性
초증용%자조장%납미%Ni-Al2 O3%체상%표면활성제%분산성
Super-solubilization%Self-assembly%Nanometer%Ni-Al2 O3%Bulk%Surfactant%Dispersion
以尿素为沉淀剂、六水硝酸镍为前躯体、表面活性剂(聚异丁烯马来酸三乙醇胺酯)和石油烃-150SN混合物作为模板剂,采用超增溶自组装法制得纳米 Ni-Al2 O3体相催化剂。对 Ni-Al2 O3体相催化剂进行了 TEM表征和氢气还原曲线(TPR)分析,并对沉淀反应的机理进行了探讨。结果表明,超增溶自组装纳米Ni-Al2 O3体相催化剂是晶体结构,形状除了球形,还有纳米棒、纳米丝等其他形状;通过超增溶自组装法制备出的微粒分散性良好,颗粒均匀、粒径分布(10~50 nm)较窄。Ni-Al2 O3经过 H2还原后仍是规整有序的晶体,而且还原后比还原前的晶体结构要规整有序,还原后的颗粒的粒径仍在纳米粒子范围内,属于纳米颗粒。TPR 分析结果表明,曲线出现了两个还原峰,低温峰归属于 NiO 结构,高温峰归属于镍与氧化铝相互作用产生的表面尖晶石结构。
以尿素為沉澱劑、六水硝痠鎳為前軀體、錶麵活性劑(聚異丁烯馬來痠三乙醇胺酯)和石油烴-150SN混閤物作為模闆劑,採用超增溶自組裝法製得納米 Ni-Al2 O3體相催化劑。對 Ni-Al2 O3體相催化劑進行瞭 TEM錶徵和氫氣還原麯線(TPR)分析,併對沉澱反應的機理進行瞭探討。結果錶明,超增溶自組裝納米Ni-Al2 O3體相催化劑是晶體結構,形狀除瞭毬形,還有納米棒、納米絲等其他形狀;通過超增溶自組裝法製備齣的微粒分散性良好,顆粒均勻、粒徑分佈(10~50 nm)較窄。Ni-Al2 O3經過 H2還原後仍是規整有序的晶體,而且還原後比還原前的晶體結構要規整有序,還原後的顆粒的粒徑仍在納米粒子範圍內,屬于納米顆粒。TPR 分析結果錶明,麯線齣現瞭兩箇還原峰,低溫峰歸屬于 NiO 結構,高溫峰歸屬于鎳與氧化鋁相互作用產生的錶麵尖晶石結構。
이뇨소위침정제、륙수초산얼위전구체、표면활성제(취이정희마래산삼을순알지)화석유경-150SN혼합물작위모판제,채용초증용자조장법제득납미 Ni-Al2 O3체상최화제。대 Ni-Al2 O3체상최화제진행료 TEM표정화경기환원곡선(TPR)분석,병대침정반응적궤리진행료탐토。결과표명,초증용자조장납미Ni-Al2 O3체상최화제시정체결구,형상제료구형,환유납미봉、납미사등기타형상;통과초증용자조장법제비출적미립분산성량호,과립균균、립경분포(10~50 nm)교착。Ni-Al2 O3경과 H2환원후잉시규정유서적정체,이차환원후비환원전적정체결구요규정유서,환원후적과립적립경잉재납미입자범위내,속우납미과립。TPR 분석결과표명,곡선출현료량개환원봉,저온봉귀속우 NiO 결구,고온봉귀속우얼여양화려상호작용산생적표면첨정석결구。
Using the Super-Solubilization Nanometer Self-Assembly method, bulk Ni-Al2 O3 catalyst is prepared with nickelnitratehexahydrate as the precursor and urea as precipitation agent,the mixture of the surfactant-gather isobutylene maleic acid triethanolamine esters and petroleum hydrocarbon-150SN as template agent.The Ni-Al2 O3 catalysts were characterized by TEM and TPR,and reaction mechanism of precipitation was studied.The results indicate that nanosized Ni-Al2 O3 bulk catalyst has a crystalline form with not only spherical shape,but also nanorod and nanometer silk,etc.Particles prepared by this method have good dispersion and uniform size,and narrow diameter distribution is observed between 10~50 nm.The Ni-Al2 O3 reduced by hydrogen also has a crystalline form,and nanostructure of reduced Ni-Al2 O3 is more orderly than before.Particles size after reduction is still in the nanoparticles scope.TPR results show that there are two reduction peak appeared in the structure of nanometer bulk Ni-Al2 O3 catalyst,and the low-temperature peak is NiO,high temperature reduction peak attributes to spinel structure which produced by the interaction of nickel and aluminum oxide.
