学科分类
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105 个结果
  • 简介:通过对重二K202氢压机组气阀损坏故障的分析计算,提出了用PEEK塑料阀片来替代传统的钢阀片的解决方案,通过对新旧阀片材料性能,气密性能,气体阻力损失,安全性方面的对比,说明了解决方案的可行性和可靠性。改用KEEP阀片,大大降低了气阀的故障率,取得了良好的经济效果。

  • 标签: 活塞式压缩机 气阀 塑料阀片 故障分析 对策 催化重整装置
  • 简介:Inthispaper,2-isopropylnaphthalenehasbeensynthesizedbythereactionofnaphthaleneandisopropylbromide,usingtriethylaminehydrochloride-aluminumchlorideionicliquidasthecatalyst.Theeffectofthecatalystcomposition,thereactiontime,thereactiontemperature,theionicliquiddosage,aswellasthemolarratioofthereagentsonthe2-isopropylnaphthaleneyieldwassystematicallyinvestigated.Theoptimalreactionconditionscover:anAlCl3toEt3NHClratioof2.0,areactiontimeof3h,areactiontemperatureof15.0℃,avolumefractionofionicliquidtothemixture(isopropylbromide,n-dodecaneandn-hexane)of9%,andanaphthalene/isopropylbromidemolarratioof4.0.Undertheoptimalreactionconditions,theconversionofisopropylbromidereached98%andtheselectivityof2-isopropylnaphthalenewasequalto80%.ThetestresultsverifiedgoodcatalyticactivityuponusingEt3NHCl-AlCl3ionicliquidasthecatalystforalkylationofnaphthalenewithisopropylbromide.Theactivityoftheionicliquidremainsunchangedafterithasbeenrecycledfor4times.

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  • 简介:热电事业部九号炉结合大修进行了油枪改造,选择了节油型微爆雾化油枪。事业部结合实际情况,与开发单位共同完成了微爆雾化油枪在浓淡燃烧器中的应用改造。通过改造,锅炉点火用油也显著减少,事业部有关工作人员技术上也有了新的收获。

  • 标签: 浓淡燃烧器 油枪 雾化 微爆 应用 开发单位
  • 简介:以2,6-二甲基苯酚、氧气为原料,氨水与乙酸铜为催化剂,合成得到了3,3′,5,5′-四甲基-4,4′-联苯二醌,得到反应的最佳条件为:2,6-二甲基苯酚的浓度为0.1g/mL,氨水与乙酸铜的摩尔比为0.43,温度为75℃,反应时间为6h,产率达到60%.

  • 标签: 3 3’ 5 5’-四甲基-4 4’-联苯二醌 合成 2 6-二甲基苯酚 氧气 原料
  • 简介:Alkylationoftoluenewith2-chloro-2-methylpropane(t-Bu-Cl)tosynthesizepara-tert-butyltoluene(PTBT)wascarriedoutinthepresenceoftriethylaminehydrochloride-aluminumchlorideionicliquidsusedasthecatalyst.TheionicliquidswerepreparedwithdifferentmolarratiosofEt3NHCltoAlCl3,andtheeffectofthemolarratiobetweenAlCl3andEt3NHCl,thereactiontime,thereactiontemperature,theionicliquiddosage,aswellasthemolarratiooftoluenetochloro-2-methylpropaneonthealkylationreactionoftoluenewithchloro-2-methyl-propanewasinvestigated.ThetestresultsshowedthattheacidicionicliquidspreparedwithEt3NHClandAlCl3hadgoodactivityandselectivityforthealkylationreactionoftoluenewithalkylchloridetoproducePTBT.TheoptimalreactionconditionswerespecifiedatanAlCl3toEt3NHClratioof1.6,areactiontemperatureof20℃,amassfractionoftoluenetoionicliquidof10%,andachloro-2-methylpropanetotoluenemolarratioof0.5.Underthesuitablereactionconditions,a98%conversionofchloro-2-methylpropaneandan82.5%selectivityofPTBTwereobtained.Ionicliquidscouldbereused5timeswithitscatalyticactivityunchanged,andtheregeneratedionicliquidscanberecycled.

  • 标签: 对叔丁基甲苯 酸性离子液体 烷基化反应 氯化铝 催化剂 三乙胺盐酸盐
  • 简介:ThepolycrystallinephaseWO3/g-C3N4wassynthesizedunderstirringusingtungstenicacid(H2WO4)andgraphiticcarbonnitride(g-C3N4)asrawmaterials.ThecatalystwascharacterizedbyX-raydiffraction(XRD),scanningelectronmicroscopy(SEM),energydispersivespectroscopy(EDS),theFouriertransforminfraredspectroscopy(FT-IR),andtheBrunauer-Emmett-Telleranalysis(BET).ThepolycrystallinephaseWO3/g-C3N4wasdeterminedbyXRDtechnique.TheoxidativedesulfurizationprocesswasinvestigatedusingWO3/g-C3N4asthecatalyst,30%hydrogenperoxide(H202)astheoxidant,and1-butyl-3-methylimidazoliumtetrafluoroborate([bmim]BF4)ionicliquids(ILs)astheextractant.Theoperatingconditions,includingH2WO4amount,ILdose,H2O2volume,temperature,catalystdosage,andtypesofsulfurcompounds,weresystematicallyresearched.Thedesulfurizationratecouldreach98.46%forremovingdibenzothiophene(DBT)fromthemodeloilunderoptimalreactionconditions.Inaddition,thecatalyticactivitywasslightlydecreasedafterfiverecyclesofcatalysts.Thereactionkineticsanalysisshowsthattheoxidativedesulfurizationsystemwasinaccordwiththefirst-orderreactionkineticsequation.Themechanismofoxidativedesulfurizationwasproposed.

  • 标签: oxidative DESULFURIZATION WO3/g-C3N4 heterogeneous CATALYSIS EXTRACTANT
  • 简介:3月份,在全球股市上扬、美联储意外购入长期美国公债等利好消息的带动下,国际油价强劲反弹。WTI、英国布伦特原油以及亚洲迪拜原油的现货价格平均为每桶48.00美元、46.54美元和45.59美元,较2月份分别上升了8.84美元、3.47美元和250美元,环比分别增长28%、8%和6%。

  • 标签: 国际油价 现货价格 美元 WTI 原油 股市
  • 简介:我国《可再生能源中长期发展规划》指出,今后,将不再增加以粮食为原料的燃料乙醇生产能力,积极发展非粮生物液体燃料。从长远考虑,要积极发展以纤维生物质为原料的生物液体燃料技术。到2010年,非粮原料燃料乙醇年利用量达2Mt;到2020年,生物燃料乙醇年利用量达10Mt。

  • 标签: 燃料乙醇 纤维素 开发 液体燃料 可再生能源 生物质