简介:关于三个广告的加热表面的热转移的研究300个MWeCFB锅炉在这个工作被进行。加热表面,外部热exchanger(EHE)和气旋隔板的压盘的热转移系数在不同锅炉负担根据相对操作数据被计算。而且,waterwall的热转移系数被CFB锅炉的热电路的热平衡计算。与增加的锅炉能力,这些加热表面增加的热转移系数,和水的热转移系数围比加热表面的压盘的高。EHE的热转移系数在高锅炉负担是最高的,气旋隔板的热转移系数最低。因为开除的煤与在No.1锅炉的设计煤不同,开除的煤的灰内容比设计煤的低得多。与手术数据计算了的热转移系数比以前的设计价值低,那是病床温度在在No.1锅炉的锅炉手术期间相当高的原因。
简介:Thefatiguebehaviorofahighstrengthsteel300Minthegigacycleregimewasinvestigated.Fullyreversedtension-compressionfatiguetestsatambienttemperaturewereperformedusinganultrasonicfatiguesystemoperatingat20kHz.Thestaircasetestmethodwasemployedtoobtainaccuratevaluesofthemeanfatiguestrengthcorrespondingtofixednumbersofcyclesupto10~9.Theseresultswerecomparedtothecurvewhichisestimatedbythedatatestedinthemid-longliferegimeonconventionalservohydraulictestmachineat20Hz.Resultsindicatethatthefatiguestrengthdeterminedfromultrasonicfatiguetestingislightlyhigherthanconventionaltestingintherangeof10~6-10~7cycles.Itisobviousthatnucleationsoffracturestendtooccurbelowthesurface,iffractureshappenaftermorethan10~7cycles.AllthefracturedspecimensfailsfrominternalSiO_2inclusionsorsmallercarbidesandcarbideclusters.
简介:ThelasersystemPALS,asadriverofabroad-beamionsource,delivereddeuteronswhichgeneratedneutronswithenergieshigherthan14MeVthroughthe7Li(d,n)8Bereaction.Deuteronswithsub-MeVenergywereacceleratedfromthefrontsurfaceofamassiveCD2targetinthebackwarddirectionwithrespecttothelaserbeamvector.Simultaneously,neutronswereemittedfromtheprimaryCD2targetandasecondaryLiFcatcher.Thetotalmaximummeasuredneutronyieldfrom2D(d,n)3He,7Li(d,n)8Be,12C(d,n)13Nreactionswas~3.5(±0.5)×108neutrons/shot.
简介:Inthispaper,anewmeasurmenttechniquefordeterminingthermalconductivityofsemitransparentmediainthetemperaturerange300-800Kisreported.TheexperimentalsetupisbasedonthesteppowerforcedtransienthotwiretechniqueItisassumedthattheradiativecontributiontotheheattransferprocessarisesfromemission,Notfromabsorption.Inthiscase,applicationofthe'thermalquadruples'methodallowsaverysimpleconstructionofanalyticalmodelsoftheexperimentalsetup.Theparametersensityvityanalysisdemonstratesthatthethermalconductivityofsemitransparentmeidiacanbedeterminedfromthehotwiretemperatureresponse,Theexperimentalresultsofakindofglassbetween300and800Karepresented.
简介:摘要对于社会的发展而言,能源是最为关键的支撑力量,同样也是社会大众日常生产、生活中所不可缺少的基础物质。伴随着社会的不断发展,人们对于能源的需求也正在不断地提升,并且随着社会现代化建设速度的不断提升,能源的供求量以及消耗量也大幅度增加。当前能源主要分为可再生与不可再生资源两种,而煤炭属于生产中最关键的不可再生资源,通过煤炭进行火力发电是当前社会电力行业中最主要的方法之一。这就需要将火力发电厂的供电煤耗进行降低,从而达成节能减排的目的。对于我国而言,促进经济与社会发展的重要措施就是节能减排,尤其是对于高耗能产业来讲,节能减排是最为艰巨的挑战。因此,本文将对华润电力(海丰)有限公司1000MW超超临界机组的优化运行进行分析。
简介:Radiotherapyisacommontreatmentmodalityforheadandneckcancers,nasopharyngealcancers,primarybraintumorsandbrainmetastases.Alargenumberofpatientsintheworldwithprimaryormetastaticbraintumorswillrequirelargevolumeorwholebrainirradiationeveryyear.However,therapeuticirradiationnotonlykillstumorcells,butalsoinjuresnormalbraintissue,whichiscommonlyassociatedwithsignificantfunctionalmorbidityanddecreasedqualityoflifeinpatientstreatedwithbrainradiotherapy[1].