燃料電池與材料實(shí)驗(yàn)報(bào)告

燃料電池與材料（最新的相關(guān)文獻(xiàn)）檢索主題（中文）：燃料電池與材料檢索主題（英文）：Fuelcellandmaterials檢索字段檢索詞檢索年限單獨(dú)檢索結(jié)果記錄數(shù)組配邏輯符組配檢索結(jié)果記錄數(shù)1FuelcellandmaterialsFuelcellandmaterials所有年份119022FuelcellandmaterialWANGY訴五年633FuelcellandmaterialWANGY訴五年63檢索結(jié)果通過webofscience檢索，找出最新的相關(guān)文獻(xiàn)，羅列詳細(xì)的4一6篇（含外文三篇以上）與你選擇主題密切相關(guān)的文獻(xiàn)。檢索結(jié)果:11,902〔親§WebofScience樓心咅集）耀的檢索：主題：（Fuelcellandmaterials）…更宰內(nèi)容□ 1.OverviewofDual-Active-BridgeIsolatedBidirectionalDC-DCConverterforHigh-Frequency-LinkPowerConversionSystem作者：Zhao,Biao;Song,Qiang;Liu,Wenhua;等.IEEETRANSACTIONSONPOWERELECTRONICS譽(yù)：29期：8特刊：SI頁：4091-4106出版年：AUG2014出版商處的全文 查看摘妾□ 2.TuningtheinterfacialreactionbetweenCaO-SrO-AI2O3-B2O3-SiO2sealingglass-ceramicsandCr-containinginterconnect:Crystallinestructurevs.glassstructure作者：Chen,Jialin;Yang,Hsiwen;Chadeyron,Romain;等.JOURNALOFTHEEUROPEANCERAMICSOCIETY卷：34期：0頁:1989-1996出版年：AUG2014出版商處的全文 查看擠姜3.3Dmicrostructuremodelingofcompressedfiber-basedmaterials作者：Gaiselmann,Gerd;Toetzke,Christian;Manke,Ingo;等.JOURNALOFPOWERSOURCES卷：257頁：52-64出版年：JUL12014Ontheeffectofnon-carbonnanostructuredsupportsonthestabilityofPtnanoparticlesduringvoltagecycling:AstudyofTiO2nanofibres作者：Savych,I.;d'Arbigny,J.Bernard;Subianto,S.;等.JOURNALOFPOWERSOURCES卷：257 147-155出版年：JUL120149Long-termevaluationofsolidoxidefuelcellcandidatematerialsina3-cellgenericstacktestfixture,partIII:StabilityandmicrostructureofCe-(Mn,Co)-spinelcoating,AISI441interconnect,aluminacoating,cathodeandanode■f乍者:Chou,Yeong-Shyung;Stevenson,JeffryW.;Choi,Jung-PyungJOURNALOFPOWERSOURCES卷：257頁：444-453出版年：JUL12014通過webofscience檢索近五年的文獻(xiàn)，查找上述排列方式中最靠前的一個(gè)中國作者，可以找其未被SCI收錄的相關(guān)中英文獻(xiàn)五篇，最多3篇中文文獻(xiàn)(下載全文，首頁截圖)，文獻(xiàn)檢索結(jié)果以截圖形式體現(xiàn)

作者KIMJH(64)0作者KIMJH(64)0WANGY(63)CHENFL(47)SHAOZP(46)ZHUB(44)更爭選頂/分董…▼精煉(耒言WebofScience爲(wèi)心吉集｝寧的檢索：主題：(Fuelcellandmaterials)…更冬內(nèi)容Compositecathodebasedondopedvanadateenhancedwithloadedmetalnanoparticlesforsteamelectrolysis件者：Li,Yuanxin;Wu,Guojian;Ruan,Cong;等.Ordmrmclmmsoporoustungstencarbidm/carbo門comuositmspromotedPtcataRstwithhi旦hactRityandstabilityformmtlizuiolmlmctrooxidatio門作者：Wang,Kun;Wang,Yi;Liang,Zhenxing;等.APPLIEDCATALYSISB-ENVIRONMENTAL卷：Ordmrmclmmsoporoustungstencarbidm/carbo門comuositmspromotedPtcataRstwithhi旦hactRityandstabilityformmtlizuiolmlmctrooxidatio門作者：Wang,Kun;Wang,Yi;Liang,Zhenxing;等.APPLIEDCATALYSISB-ENVIRONMENTAL卷：1燈頁：518-525出版年：APR52014Perovskitechromatescathodewithresolvedandanchorednickelnano-particlesfordirecthigh-temperaturesteamelectrolysis作者：Xu,Shanshan;Dong,Dehua;Wang,Yan;等.JOURNALOFPOWERSOURCES卷：246貞：346-355出版年JAN152014c注釋：共享l-s2.0-S0378775313013268-?ain.pdf-AdobeReader文件0）編輯⑥視圖辺窗口他）幫助0）?單擊芍主釋喘］洪享呵創(chuàng)建、Yc注釋：共享l-s2.0-S0378775313013268-?ain.pdf-AdobeReader文件0）編輯⑥視圖辺窗口他）幫助0）?單擊芍主釋喘］洪享呵創(chuàng)建、Y標(biāo)記和發(fā)送PDF文件.Partialoxidationofmethaneinanadiabatic-typecatalyticreactorA.Al-Musa3**,S.Shabunyab,V.Martynenkob,S.Al-Maymana,V.Kalininb.M.Aljuhani3,K.Al-Enazya亠HIGHLIGHTSCatalyticpartialoxidationofmethanewasstudiedinadiabaticreactor.WeexaminefourcatalystsinPOXprocessesofvariousmethane/airmixtures.Similarcharacteristicresidencetime-0.05sisrevealedforallcatalysts.CompositionofmeasuredPOO<productswascomparedwithdevelopedmodelpredictions.犒目呂口I）叵］39）I@?I刀?8%卜I|h固I㈢矽IIZ1ELSEVIERContentslistsavailableatScienceDirectJournalofPowerSourcesjournalhomepage:/locate/jpowsour□5.Microwavehydrothermalsynthesisofurchin-likeNiOnanospheresaselectrodematerialsforlithium-ionbatteriesandsupercapacitorswithenhancedelectrochemicalperformances作者：Mondal,AnjonKumar;Su,Dawei;Wang,Ying;等.JOURNALOFALLOYSANDCOMPOUNDS卷：582頁：522-527出版年：JAN52014

12.Measurementofthermalconductivityandheatpipeeffectinhydrophilicandhydrophobiccarbonpapers作者：Wang,Yun;Gundevia,MehernoshINTERNATIONALJOURNALOFHEATANDMASSTRANSFER卷60頁:134-142出版年:MAY2013、采用能下載到全文的文獻(xiàn)文獻(xiàn)信息、簡要介紹檢索到的文獻(xiàn)的基本信息和主要內(nèi)容（主要觀點(diǎn)或技術(shù)或研究方法及其效果）1、 篇名：Compositecathodebasedondopedvanadateenhancedwithloadedmetalnanoparticlesforsteamelectrolysis2、 作者：作者：Li,YX(Li,Yuanxin^1】;Wu,GJ(Wu,Guojian^1】;Ruan,C(Ruan,Cong^1】;Zhou,Q(Zhou,Qi)【Q1;Wang,Y(Wang,Yan^1】;Doherty,W(Doherty,Winston^3;Xie,K(Xie,Kui)【1,2】;Wu,YC(Wu,Yucheng)^1,2】3、 文獻(xiàn)來源：JOURNALOFPOWERSOURCES卷：253頁：349-359DOI:10.1016/j.jpowsour.2013.12.046出麒年：MAY120144、 所屬數(shù)據(jù)庫：SCI5、 摘要：TheuseofcrimpositeelectrodesbasedonLaU7Sr0.3v03(LSV)forsteamelectrolysishasuncoveredthetremendliuspntentialandcapacityinherentinthismaterial.Unfrirtunately,thismaterialhasamajorsetbackofinefficientelectrolysistriggeredbylimitedelectrocatalyticactivity.Inthiswork,aninfiltratirmmethodisemployedtoloadcatalytic-activemetaInanriparticlesontuthecrimpositeelectrodesinordertoachieveanautivity-enhancedelentrudeperfurmanuH.TheelectricalprupHrtiesufLSVaremethudirallyh；-：：pluredandcurrelatedtoelectrude卩erfurmancH.At800degreesCineitherpureH-2orlowhydrogenpartial卩「essure('pHp)jof5%H-2/N-2,thepularizatiunresistanceofsymmetricalcellsV'/ithNi-luadedLSV(LSV-Ni)cathudeislargelyenhanci「i匚:匚i「it「刖;ttobareLSVcathude.SimilarimpruvementisalsoachievedfortheFe-loadedLSV(LSV-Fe)cathodeinawiderangeofhydrogenpartialpressuresof5%-100%.TheFaradayefficienciHSofLSv-NiandLSV-FecumpositecathodeswereremarkablyimprovedforelHctrulysisineither3%.H2Ci/4.7H(2；i/Arrir3%.H2O/Arat800degreesC.(C)2013ElsevierB.v.Allrightsreserved.6、 主要內(nèi)容：文獻(xiàn)Compositecathodebasedondopedvanadateenhancedwithloadedmetalnanoparticlesforsteamelectrolysis王要研究了Ia0.7sr0.3vo3復(fù)合電極的使用。用烝汽電解方法得出了該市場潛力巨大的結(jié)果。7、 摘要及主要內(nèi)容中文描述：基于Ia0.7sr0.3vo3復(fù)合電極的使用(LSV)蒸汽電解已發(fā)現(xiàn)的巨大潛力和在這種材料中固有的能力。不幸的是，這種材料具有低效率的電解的電催化活性引發(fā)重大挫折有限公司。在這項(xiàng)工作中，滲透法負(fù)載催化活性金屬納米顆粒在復(fù)合電極，以實(shí)現(xiàn)一個(gè)增強(qiáng)活性電極性能。LSV的電氣性能是有條不紊地探索和電極性能的相關(guān)性。在800攝氏度或純H-2或低氫分壓(pH(2))5%H-2/N-2,與鎳負(fù)載LSV對稱細(xì)胞極化電阻(LSVNi)陰極的大幅度提高，相反，赤裸的LSV陰極。類似的改進(jìn)也為負(fù)載鐵的LSV實(shí)現(xiàn)(LSVFe)在很寬的范圍內(nèi)的氫分壓5%—100%陰極。鎳和鐵的LSVLSV復(fù)合陰極法拉第效率為3%H2O/4.7h電解顯著提高(2)/AR/AR或3%水在800攝氏度(C)2013EIsevier公司保留所有權(quán)利。(二)1、 篇名：Orderedmesoporoustungstencarbide/carboncompositespromotedPtcatalystwithhighactivityandstabilityformethanolelectrooxidation2、 作者：柞者：Wang,K(Wang,Kun^1】;Wang,Y(Wang,Yi^2】;Liang,ZX(Liang,Zhenxing^3】;Liang,YR(Liang,Yeru)^2】;Wu,DC(Wu,Dingcai^2】;Song,SQ(Song,Shuqin^1】;Tsiakaras,P(Tsiakaras,Panagiotis)^°】3、 文獻(xiàn)來源：APPLIEDCATALYSISB-ENVIRONMENTAL147頁：518-525DOI:10.1016/j.apcatb.2013.09.020出JR年：APR520144、 所屬數(shù)據(jù)庫：SCI5、 摘要：Thecurrentanodematerialsusedfordirectmethanolfuelcells(DMFCs)areexpensiveandnotsufficientlydurableforcommercialdevelopment.Oneofthemajorchallengesliesinthedevelopmentofaninexpensive,efficientandstableanodecatalyst.Inthepresentmanuscriptorderedmesoporoustungstencarbide/carboncompositespromotedPt(Pt@WC/OMC)catalystwithhighactivityandstabilityformethanolelectrooxidationisreported.WC/OMCnanomaterialshavebeensynthesizedbycombingthehydrothermalreactionandthehard-templatemethodandtheyhavebeenplatinizedbyapulsemicrowaveassistedpolyoltechnique.Thecombinationofhighsurfacearea,orderedmesopores,thesynergisticeffectandCO-tolerantabilityofWCandwelldispersedPtnanoparticlesprovidePt@WC/OMCwithhighactivity,desirablestability,andCO-tolerancetowardmethanolelectrooxidation.ComparedwiththecommercialPtRu@C(40wt.%Pt,20wt.%Ru)catalyst,Pt@WC/OMCdemonstrateslongerstabilityaswellashigherspecificmassactivityformethanolelectrooxidationbyafactorof1.1(permgPt)and1.7(permgnoblemetal).ExperimentalresultshaveprovedthatPt@WC/OMCisapromisinganodecatalystforDMFCsapplications.(C)2013ElsevierB.V.Allrightsreserved.6、 主要內(nèi)容：文獻(xiàn)Orderedmesoporoustungstencarbide/carboncompositespromotedPtcatalystwithhighactivityandstabilityformethanolelectrooxidation主要研究了有序介孔碳化鎢/碳復(fù)合材料。得出了Pt@WC/OMC直接用于甲醇燃料電池陽極催化劑的應(yīng)用前景的結(jié)果7、摘要及主要內(nèi)容要求中文描述：用于直接甲醇燃料電池（DMFC）的陽極材料是商業(yè)發(fā)展的昂貴和不足夠的耐用。一個(gè)主要的挑戰(zhàn)在于廉價(jià)的發(fā)展，高效、穩(wěn)定的陽極催化劑。在本手稿的有序介孔碳化鎢/碳復(fù)合材料促進(jìn)了Pt（Pt@WC/OMC）的報(bào)告，對甲醇電化學(xué)氧化的高活性、高穩(wěn)定性的催化劑。WC/OMC納米材料結(jié)合水熱反應(yīng)和硬模板法和他們被鍍鉑的脈沖微波輔助的多元醇的方法合成了。高的表面面積，有序介孔的組合，協(xié)同效應(yīng)和WC寬容的有限能力和分散的Pt納米粒子的Pt@WC/OMC提供具有高活性，穩(wěn)定性好，和CO公差對甲醇的電。隨著商業(yè)的PtRu@C比較（40重量％的Pt，Ru催化劑的20重量%），PT”WC/OMC展示了更長的穩(wěn)定性以及較高的具體的質(zhì)量活動(dòng)由一個(gè)因子1.1的電氧化甲醇（每毫克PT）和1.7（每毫克的貴金屬）。實(shí)驗(yàn)結(jié)果表明，Pt@WC/OMC是用于DMFC陽極催化劑的應(yīng)用前景。（C）2013Elsevier公司保留所有權(quán)利。（三）1、 篇名：Perovskitechromatescathodewithresolvedandanchorednickelnano-particlesfordirecthigh-temperaturesteamelectrolysis2、 作者：件者：Xu,SS(Xu,Shanshan^1】;Dong,DH(Dong,DehuaJ^3】;Wang,Y(Wang,YanJ^;Doherty,W(Doherty,Winston)^4J;Xie,K(Xie,Kui)【1,2】;Wu,YC(Wu,Yucheng^1,2】3、 文獻(xiàn)來源：JOURNALOFPOWERSOURCES卷：246頁：346-355DOI:10.1016/j.jpowsour.2013.07.082出版年：JAN1520144、 所屬數(shù)據(jù)庫：SCI5、 摘要：Dopedlanthanumchromatesarenowcommonlyusedtopreparecompositecathodesfordirectsteamelectrolysis.However,thelimitationofelectrochemicalperformancesandcellcurrentefficiencybyinsufficientelectro-catalyticactivityisamajorchallenge.ThispaperreportstheuseofreversiblyexsolvedcatalyticmetallicNinano-particlesonA-sitedeficientandB-siteexcessperovskite(La0.75Si￡i.25)(0.95)(Ct0.8Ni0.2)(0.95)Ni0.0503-delta(LSCNNi),inordertoachieveanactivity-enhancedcompositecathodeviahigh-temperaturereductionunderreducingatmospheres.Theelectricalpropertiesoftheceramicareinvestigatedmethodicallyandcorrelatedwiththeperformancesofthecompositeelectrodesinsymmetricandelectrolysiscells.XRD,SEM,EDSandXPSresults,confirmthattheexsolutionordissolutionofnanometalliccatalystisreversibleinredoxtreatmentcycles.TheFaradicefficiencyreachesapproximately80%fortheLSCNNicathodewiththeflowof5%H-2/Ar.Ultimately,theunifiedeffectofmetalliccatalystandredox-stableceramicproducestrikingredoxstabilityaswellaselectrochemicalperformancesofthetitledcompositecathode.Theresultssignifythatthecompositecathodewithexsolvednickelnano-particles,isagoodpotentialfuelelectrodefordirectsteamelectrolysisinanoxygen-ionconductingsolidoxideelectrolyzer.(C)2013ElsevierB.V.Allrightsreserved.6、主要內(nèi)容：文獻(xiàn)Perovskitechromatescathodewithresolvedandanchorednickelnano-particlesfordirecthigh-temperaturesteamelectrolysis主要研究了通過高溫還原的活性增強(qiáng)的復(fù)合陰極。用XRD,SEM,EDS和XPS分析的方法得出了復(fù)合陰極與出溶鎳納米粒子，是在氧離子傳導(dǎo)固體氧化物電解器直接蒸汽電解的良好潛力燃料電極的結(jié)果7、摘要及主要內(nèi)容要求中文描述：摻雜鑭鉻酸鹽現(xiàn)在常用來制備復(fù)合陰極直接蒸汽電解。然而,電化學(xué)性能和電池電流效率的電催化活性不足的限制是一個(gè)重大的挑戰(zhàn)。本文報(bào)道了利用可逆催化出溶金屬Ni在A位的納米顆粒缺陷和B位多余的鈣鈦礦(LaO.75SrO.25)為(0.95) (Cr0.8Ni0.2) (0.95)Ni0.0503-A (LSCNNi)，以達(dá)到在還原性氣氛中通過高溫還原的活性增強(qiáng)的復(fù)合陰極。陶瓷的電性能有條不紊調(diào)查,并與復(fù)合電極的對稱和電解池的性能相關(guān)。XRD，SEM，EDS和XPS分析結(jié)果，證實(shí)納米金屬催化劑的出溶或溶解是可逆的氧化還原處理周期。的法拉第效率達(dá)到了LSCNNi陰極用5％H-2/Ar的流量約為80％。最終，金屬催化劑和氧化還原穩(wěn)定的陶瓷生產(chǎn)醒目的氧化還原穩(wěn)定性以及標(biāo)題復(fù)合陰極的電化學(xué)性能的統(tǒng)一效果。結(jié)果表明，該復(fù)合陰極與出溶鎳納米粒子，是在氧離子傳導(dǎo)固體氧化物電解器直接蒸汽電解的良好潛力燃料電極。(四)1、 篇名：Microwavehydrothermalsynthesisofurchin-likeNiOnanospheresaselectrodematerialsforlithium-ionbatteriesandsupercapacitorswithenhancedelectrochemicalperformances2、 作者：作者：Mondal,AK(Mondal,AnjonKumarJ^1J;Su,DW(Su,Dawei^1】;Wang,Y(Wang,￥ing)【1】;Chen,SQ(Chen,Shuangqiang^1】;Liu,Q(Liu,Qi)【2】;Wang,GX(Wang,GuoxiuJ^1】

3、 文獻(xiàn)來源：JOURNALOFALLOYSANDCOMPOUNDS卷：582頁：522-527DOI:10.1016/i.jallcom.2013.08.085出版年：JAN520144、 所屬數(shù)據(jù)庫：SCI5、 摘要：Urchin-likeNiOnanospheresweresynthesisedbyamicrowavehydrothermalmethod.Theas-synthesisedNiOnanosphereswerecharacterisedbyX-raydiffraction,fieldemissionscanningelectronmicroscopyandtransmissionelectronmicroscopy.ItwasfoundthatNiOnanosphereconsistsofananoporousstructureandnanosizecrystals.Whenappliedasanodematerialsinlithium-ionbatteries,NiOnanospheresexhibitedahighreversiblespecificcapacityof1027mAhg(-1),anexcellentcyclingperformanceandagoodhighratecapability.NiOnanospheresalsoshowedahighspecificcapacitanceaselectrodematerialsforsupercapacitors.(C)2013ElsevierB.V.Allrightsreserved.6、 主要內(nèi)容：文獻(xiàn)Microwavehydrothermalsynthesisofurchin-likeNiOnanospheresaselectrodematerialsforlithium-ionbatteriesandsupercapacitorswithenhancedelectrochemicalperformances主要研究了NiO納米球，用X射線衍射、場發(fā)射掃描電子顯微鏡和透射電子顯微鏡方法得出了氧化鎳納米球表現(xiàn)出高的比電容可作為超級電容器的電極材料的結(jié)果7、 摘要及主要內(nèi)容要求中文描述：合成了微波水熱法頑童般的NiO納米球。所合成的NiO納米球進(jìn)行了X射線衍射，場發(fā)射掃描電子顯微鏡和透射電子顯微鏡。結(jié)果發(fā)現(xiàn)，氧化鎳納米球由納米多孔結(jié)構(gòu)和納米晶體。當(dāng)用作負(fù)極材料中的鋰離子電池應(yīng)用的NiO納米微球表現(xiàn)出1027毫安HG(-l)的高的可逆比容量，優(yōu)異的循環(huán)性能和良好的高倍率性能。氧化鎳納米球也表現(xiàn)出高的比電容作為超級電容器的電極材料。(五)1、篇名：Measurementofthermalconductivityandheatpipeeffectinhydrophilicandhydrophobiccarbonpapers2、作者：2、作者：作者：Wang,Y(Wang,Yun^1】;Gundevia,M(Gundevia,Mehernosh)t**】3、 文獻(xiàn)來源：INTERNATIONALJOURNALOFHEATANDMASSTRANSFER巻：和］5：134-142DOI:10.1016/j.ijheatmasstransfer.2012.12.016出版年：MAY20134、 所屬數(shù)據(jù)庫：SCI5、 摘要：Inthispaper,wepresentanexperimentalstudyonmeasurementofthethermalconductivityandheatpipeeffectinbothhydrophilicandhydrophobic(TorayTGP-H6U)carbonpapers(around2IJIJgmthickness)■.■vith/LiutliquidV'/ater.AneifperimentalsetupisdevelopedformeasuringthermalconduetaneeatdifferentliquidwaterCLintentsandtempHratureswithoutdissemblingthetestingdeviceforwateraddition.Theoreticalanalysisisalso卩erfrirmedtoevaluatetheapparentcrinductanceofheatpipepffect.Wefoundthatliquid■.■vatHrpresencHinsidethesematerialsincreasHStheoverallthermalconductivity.AthightempHraturearound8udegreesC,theheatpipeeffectisevidentforthehydrophilicpaper;whileforthehydrophobicone,theheatpipeeffectisfoundtobesmaller.Thedistinctionislikelyduetothedifferentpatternsofthecapillaryliquidflowinthetwomedia.Forthehydrophobicpaper,liquidwaterflowsbacktotheevaporationside■■vhenthebreakthroughpressureisreachedandfluV'/isthroughpreferredroutesofsmallfluV'/resistance.Asaresult,heatpipeeffectisactiveonlyinpartofthemedium,thereforesmallerthanthatinthehydrophilicone.Theresultsareimportantforunderstandingtheheattransferphenomenaoccurringinpurriusmediaandeffectsofmaterialsurfacepruperty.(C)2012ElsevierLtd.Allrightsreserved.6、主要內(nèi)容：文獻(xiàn)Perovskitechromatescathodewithresolvedandanchorednickelnano-particlesfordirecthigh-temperaturesteamelectrolysis主要研究了熱傳遞對多孔介質(zhì)和材料表面性能的影響。用對比試驗(yàn)的方法得出了對于理解在多孔介質(zhì)和材料表面性能的影響發(fā)生的熱傳遞現(xiàn)象的結(jié)果7、摘要及主要內(nèi)容要求中文描述：在本文中，我們提出了一個(gè)實(shí)驗(yàn)研究中同時(shí)具有親水和疏水(東麗TGP-H60)碳紙的導(dǎo)熱系數(shù)和熱管效果的測量(約200克厚度)與輸入/輸出液態(tài)水。實(shí)驗(yàn)裝置被開發(fā)用于測量熱導(dǎo)率在不同的液體的水含量和溫度而不拆解的測試裝置，可加水。也進(jìn)行理論分析，以評估熱管效應(yīng)的表觀電導(dǎo)。我們發(fā)現(xiàn)液態(tài)水存在這些材料里增加了整體的導(dǎo)熱性。在約80攝氏度的高溫，熱管效果是顯而易見的，所述親水性紙;而對疏水性的，熱管效應(yīng)被發(fā)現(xiàn)是更小的。的區(qū)別可能是由于在這兩種介質(zhì)的毛細(xì)液流的不同的模式。對于疏水性紙，液態(tài)水流回到蒸發(fā)側(cè)時(shí)突破壓力達(dá)到最大時(shí)，流量是通過小的流動(dòng)阻力優(yōu)選路由。其結(jié)果是，熱管效應(yīng)是活性僅在培養(yǎng)基中的一部分，因此比在親水1小。研究結(jié)果對于理解在多孔介質(zhì)和材料表面性能的影響發(fā)生的熱傳遞現(xiàn)象的重要。文獻(xiàn)綜述一、 綜合以上文獻(xiàn)，簡要介紹該課題的意義、