简介:IhavebeenlivinginShanghaiforsixyears,andIthinkIhavebeenShanghaineseforalongtime.TodayIhavea“house”inShanghaiinthetruesense,”saidZhouHong,generalmanagerofShanghaiRochePharmaceuticalCo.,Ltd.andaGermannational,whoreceivedShanghai’sfirstpermanentresidentcardonJune16,2017.Onthesameday,thePudongNewAreaannouncedtheestablishmentofChina’sfirstoverseastalentbureau,andthelaunchofninenewmeasurestofacilitatetheentryandemploymentofforeigntalents,inordertoencouragethemtoparticipateintheprocessofmodernizationandinternationalizationofPudong.
简介:Aseriesofnumericalsimulationsisconductedtounderstandtheformation,evolution,anddissipationofanadvectionfogeventoverShanghaiPudongInternationalAirport(ZSPD)withtheWeatherResearchandForecasting(WRF)model.UsingthecurrentoperationalsettingsattheMeteorologicalCenterofEastChinaAirTrafficManagementBureau,theWRFmodelsuccessfullypredictsthefogeventatZSPD.Additionalnumericalexperimentsareperformedtoexaminethephysicalprocessesassociatedwiththefogevent.Theresultsindicatethatpredictionofthisparticularfogeventissensitivetomicrophysicalschemesforthetimeoffogdissipationbutnotforthetimeoffogonset.Thesimulatedtimingofthearrivalanddissipationofthefog,aswellastheclouddistribution,issubstantiallysensitivetotheplanetaryboundarylayerandradiation(bothlongwaveandshortwave)processes.Moreover,varyingforecastleadtimesalsoproducesdifferentsimulationresultsforthefogeventregardingitsonsetandduration,suggestingatrade-offbetweenmoreaccurateinitialconditionsandaproperforecastleadtimethatallowsmodelphysicalprocessestospinupadequatelyduringthefogsimulation.TheoveralloutcomesfromthisstudyimplythatthecomplexityofphysicalprocessesandtheirinteractionswithintheWRFmodelduringfogevolutionanddissipationisakeyareaoffutureresearch.