石油学报(石油加工)
石油學報(石油加工)
석유학보(석유가공)
ACTA PETROLEI SINICA(PETROLEUM PROCESSING SECTION)
2010年
2期
283-288
,共6页
王继乾%李传%张龙力%李兆敏%阙国和
王繼乾%李傳%張龍力%李兆敏%闕國和
왕계건%리전%장룡력%리조민%궐국화
沥青质%双亲分子%表面分析%吸附%稳定能力%氢键
瀝青質%雙親分子%錶麵分析%吸附%穩定能力%氫鍵
력청질%쌍친분자%표면분석%흡부%은정능력%경건
asphaltene%amphiphile%surface analysis%adsorption%stabilizihg ability%hydrogen bond
为认识双亲分子化合物对沥青质的稳定作用及机理,采用X射线光电子能谱(XPS)分析了辽河沥青质颗粒表面杂原子官能团的类型和含量;采用紫外-可见光谱(UV-Vis)测定添加双亲分子前后沥青质甲苯-正庚烷溶液中沥青质浓度的变化,进而分析了不同双亲分子化合物对辽河沥青质的分散稳定作用;采用红外光谱(FT-IR)分析初步探讨了十二烷基苯磺酸(DBSA)对沥青质分散稳定作用的机理.结果表明,沥青质颗粒表面含氮官能团主要为碱性的吡啶氮官能团和弱碱性的吡咯氮官能团,含氧官能团主要为碳氧单键和碳氧双键结构,表面杂原子官能团的数量虽然较少,但为沥青质与双亲分子作用的关键因素;双亲分子头部官能团和沥青质颗粒表面杂原子之间的酸碱作用越强,其分散稳定沥青质的能力越强;DBSA通过其磺酸基官能团与沥青质颗粒表面的羟基和氨基形成分子间氢键而吸附在沥青质上.
為認識雙親分子化閤物對瀝青質的穩定作用及機理,採用X射線光電子能譜(XPS)分析瞭遼河瀝青質顆粒錶麵雜原子官能糰的類型和含量;採用紫外-可見光譜(UV-Vis)測定添加雙親分子前後瀝青質甲苯-正庚烷溶液中瀝青質濃度的變化,進而分析瞭不同雙親分子化閤物對遼河瀝青質的分散穩定作用;採用紅外光譜(FT-IR)分析初步探討瞭十二烷基苯磺痠(DBSA)對瀝青質分散穩定作用的機理.結果錶明,瀝青質顆粒錶麵含氮官能糰主要為堿性的吡啶氮官能糰和弱堿性的吡咯氮官能糰,含氧官能糰主要為碳氧單鍵和碳氧雙鍵結構,錶麵雜原子官能糰的數量雖然較少,但為瀝青質與雙親分子作用的關鍵因素;雙親分子頭部官能糰和瀝青質顆粒錶麵雜原子之間的痠堿作用越彊,其分散穩定瀝青質的能力越彊;DBSA通過其磺痠基官能糰與瀝青質顆粒錶麵的羥基和氨基形成分子間氫鍵而吸附在瀝青質上.
위인식쌍친분자화합물대력청질적은정작용급궤리,채용X사선광전자능보(XPS)분석료료하력청질과립표면잡원자관능단적류형화함량;채용자외-가견광보(UV-Vis)측정첨가쌍친분자전후력청질갑분-정경완용액중력청질농도적변화,진이분석료불동쌍친분자화합물대료하력청질적분산은정작용;채용홍외광보(FT-IR)분석초보탐토료십이완기분광산(DBSA)대력청질분산은정작용적궤리.결과표명,력청질과립표면함담관능단주요위감성적필정담관능단화약감성적필각담관능단,함양관능단주요위탄양단건화탄양쌍건결구,표면잡원자관능단적수량수연교소,단위력청질여쌍친분자작용적관건인소;쌍친분자두부관능단화력청질과립표면잡원자지간적산감작용월강,기분산은정력청질적능력월강;DBSA통과기광산기관능단여력청질과립표면적간기화안기형성분자간경건이흡부재력청질상.
In order to elucidate the effect of amphiphilic molecules on asphahene stabilization and the stabilizing mechanism, the type and amount of functional groups on the surface of asphaltene particle were analyzed by X-ray photoelectron spectroscope (XPS). And the performance of amphiphilic molecules for asphaltene stabilization was evaluated in correlation with the asphaltene concentration in toluene-n-heptane solution, which was measured by UV-vis spectroscopy. The interaction between dodecylbenzenesulfonic acid (DBSA) and asphaltene was investigated via FT-IR. It was concluded that the nitrogen-containing groups on the surface of asphaltene particle were mainly pyrrolic and pyridinic type, and oxygen-containing groups were mainly carbonyl, lactone, hydroxyl and etheric type. Although with comparatively small amount on surface of asphaltene particle, these functional groups with hetero atoms played an important role in adsorption of amphilic molecules. With stronger acid-base interaction between head group in amphilic molecules and the functional groups on asphaltene particle surface, the amphiphilic molecules could better stabilize asphaltene in toluene-n-heptane solution. And DBSA could be adsorbed on surface of asphaltene particle through the hydrogen bonds between its sulfonic groups and hydrogens in hydroxyls or amidos on asphaltene particle surface.
