简介:Twosolubleisomerizedpolyimides(PIs)synthesizedfrom2,2'-bis(3,4-dicarboxyphenyl)hexafluoropropanedianhydride(6FDA)witheither2,2'-dimethylbenzidine(2,2'-DMB)or3,3'-DMBwereinvestigatedbymeansofsize-exclusionchromatographycoupledwithmulti-anglelaserlightscattering,aviscometerandarefractiveindexdetectorintetrahydrofuran(THF)withtetrabutylammoniumbromide(TBAB)at35℃.Thecorrespondingparametersrelatedtoconformationsαandν,evaluatedfromthescalingrelationships[η]=KηMαandRg=KgMν,respectively,were0.66±0.01and0.55±0.02forpoly(6FDA/3,3'-DMB),and0.67±0.01and0.56±0.01forpoly(6FDA/2,2'-DMB),indicatingarandomcoilconformationforboththesamplesinthismobilesystem.ThepersistencelengthlpandshiftfactorML(relativemolecularweightperunitcontourlength)wereestimatedfromtherelationshipbetweenintrinsicviscosityandmolecularweightforthewormlikecylindermodelproposedbyBohdanecky.BothlpandMLshowedthatthetwoPIsinTHFareflexiblechainsandexhibitsomelocalrigiditytosomeextent.
简介:重要细丝状的工业真菌,Rhizopuscohnii(R。cohnii),作为有效biosorbent被使用把镉从废水移开。吸着条件生物资源的剂量和镉的起始的集中例如pH,被检验。二种吸附模型被使用模仿biosorption数据。镉的举起比处于强壮的酸状况处于弱酸状况是更高的。当pH价值比2.0低时,将近,镉的吸着都没发生。Biosorption等温的数据能被兰米尔和Freundlich模型很好模仿。biosorption的兰米尔模拟证明镉的最大的举起处于最佳的条件是40.5mg/g(0.36mmol/g),它比许多另外的吸附物高,包括biosorbents并且激活碳。另外,可重用性结果在五次吸着和解吸附作用过程以后显示出那,R的吸着能力。cohnii能仍然维持将近80%,证实它在镉处理的实际申请。Fourier变换红外线的光谱揭示了那carboxyl,氨基并且biosorbentR上的氢氧根组。cohnii表面为镉的biosorption负责。
简介:SECRALIIisthesecondfullysuperconductingECRionsourcedevelopedatIMP.It’salmosttheduplicateofSECRAL,exceptforthecryogenicsystem[1].SECRALIIhasintegratedLHerecondensationsystem,whichhasthedynamiccoolingcapacityofmorethan5W.ThemainparametersofSECRALI&IIareshowninTable1.ThemagnetsofSECRALIIhasbeensuccessfullyfabricatedandtestedin2015.In2016,SECRALIIhasbeencommissionedat18and28GHzwithOandXeionbeams,whichhasgivenverypromisingresults.
简介:TheconstructionscaleofPFBC-CCdemonstrationprojectis:toinstalltwosetsofPFBCboilerwithinputpowerof200MWeach,twosetsofimported17MWclassgasturbineandrelevantkeyequipment,andequiponesetofdomesticallymade173.5MWcondensingtypeturbo-generatorunit.Thetotalcapacit