现代化工
現代化工
현대화공
MODERN CHEMICAL INDUSTRY
2009年
z1期
257-260
,共4页
赵选英%王同华%李琳%姜大伟%曹义鸣
趙選英%王同華%李琳%薑大偉%曹義鳴
조선영%왕동화%리림%강대위%조의명
掺杂%功能炭膜%渗透性能%气体分离
摻雜%功能炭膜%滲透性能%氣體分離
참잡%공능탄막%삼투성능%기체분리
hybrid%functional carbon membrane%permeability%gas separation
以聚酰胺酸为炭膜前驱体,分别以Fe_3O_4、γ-Fe_2O_3、Zn_(0.5)Ni_(0.5)Fe_2O_4以及二茂铁为掺杂物,经高温热解制备了4种Fe系物质掺杂的气体分离功能炭膜,对所制备的功能炭膜微结构及磁性能进行了表征.结果表明,各掺杂物在热解炭化过程中发生了物相结构的变化,其中Fe_3O_4和Zn_(0.5)Ni_(0.5)Fe_2O_4纳米粒子对前驱体起到了催化石墨化的作用.气体渗透测试结果表明,各掺杂物所制备的功能炭膜以分子筛分机理为主导进行气体分离,且气体渗透性能都有了显著的提高,特别是小分子气体H2渗透性最大提高了近48倍,Fe3O4掺杂所制备的功能炭膜,其H_2、CO_2、O_2、N_2和CH_4等单组分气体的渗透系数分别达到了12 194、3 433、1 175、136和74 Barters[1Barter=1×10~(-10)cm~3(STP)·cm/cm~2·s·cmHg].经FeO_4、γ-Fe_2O_3和Zn_(0.5)Ni_(0.5)Fe_2O_4掺杂制备的功能炭膜更是提高了H_2/CO_2的分离选择性.
以聚酰胺痠為炭膜前驅體,分彆以Fe_3O_4、γ-Fe_2O_3、Zn_(0.5)Ni_(0.5)Fe_2O_4以及二茂鐵為摻雜物,經高溫熱解製備瞭4種Fe繫物質摻雜的氣體分離功能炭膜,對所製備的功能炭膜微結構及磁性能進行瞭錶徵.結果錶明,各摻雜物在熱解炭化過程中髮生瞭物相結構的變化,其中Fe_3O_4和Zn_(0.5)Ni_(0.5)Fe_2O_4納米粒子對前驅體起到瞭催化石墨化的作用.氣體滲透測試結果錶明,各摻雜物所製備的功能炭膜以分子篩分機理為主導進行氣體分離,且氣體滲透性能都有瞭顯著的提高,特彆是小分子氣體H2滲透性最大提高瞭近48倍,Fe3O4摻雜所製備的功能炭膜,其H_2、CO_2、O_2、N_2和CH_4等單組分氣體的滲透繫數分彆達到瞭12 194、3 433、1 175、136和74 Barters[1Barter=1×10~(-10)cm~3(STP)·cm/cm~2·s·cmHg].經FeO_4、γ-Fe_2O_3和Zn_(0.5)Ni_(0.5)Fe_2O_4摻雜製備的功能炭膜更是提高瞭H_2/CO_2的分離選擇性.
이취선알산위탄막전구체,분별이Fe_3O_4、γ-Fe_2O_3、Zn_(0.5)Ni_(0.5)Fe_2O_4이급이무철위참잡물,경고온열해제비료4충Fe계물질참잡적기체분리공능탄막,대소제비적공능탄막미결구급자성능진행료표정.결과표명,각참잡물재열해탄화과정중발생료물상결구적변화,기중Fe_3O_4화Zn_(0.5)Ni_(0.5)Fe_2O_4납미입자대전구체기도료최화석묵화적작용.기체삼투측시결과표명,각참잡물소제비적공능탄막이분자사분궤리위주도진행기체분리,차기체삼투성능도유료현저적제고,특별시소분자기체H2삼투성최대제고료근48배,Fe3O4참잡소제비적공능탄막,기H_2、CO_2、O_2、N_2화CH_4등단조분기체적삼투계수분별체도료12 194、3 433、1 175、136화74 Barters[1Barter=1×10~(-10)cm~3(STP)·cm/cm~2·s·cmHg].경FeO_4、γ-Fe_2O_3화Zn_(0.5)Ni_(0.5)Fe_2O_4참잡제비적공능탄막경시제고료H_2/CO_2적분리선택성.
Functional carbon merrIbranes for gas separation are designed and prepared by incorporating Fe_3O_4,γ-Fe_2O_3,Zn_(0.5)Ni_(0.5)Fe_2O_4 nanoparticles into carbon membrane precursor polyimide,as well as fermeene.The synthesized membranes are characterized.Results show that all the doponts have changed into other phase morphologies during the pyrolysis process,while Fe_3O_4 and Zn_(0.5)Ni_(0.5)Fe_2O_4 nanoparticles are influential in the formation of graphite-like layers.Gas permeation test results show that all the functionl carbon membranes exhibite an outstanding molecular sieving capability together with high gas permeability,especially to micromolecule gas H2 whose permeability is increased by 48 times at most.The permeabilities of pure gas H_2,CO_2,O_2,N_2,CH_4 in functional carbon membrane doping with Fe_3O_4 are 12 194,3 433,1 175,136,74 Barrers γ-Fe_2O_3 and Zn_(0.5)Ni_(0.5)O_4 have an improved selectivity in sepemting H_2 and CO_2.
