销售代表 Quantity of material handling equipmentA queuing theory based approach.docx
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销售代表 Quantity of material handling equipmentA queuing theory based approach.docx
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销售代表QuantityofmaterialhandlingequipmentAqueuingtheorybasedapproach
销售代表
鸣乐(上海)贸易有限公司 查看公司简介>>
粉丝团(4)|
公司行业:
贸易/进出口 批发/零售
公司性质:
外资(欧美)
公司规模:
少于50人
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发布日期:
2011-03-21
工作地点:
上海-卢湾区
招聘人数:
4
工作年限:
五年以上
语言要求:
英语 一般
学 历:
大专
薪水范围:
2000-2999
职位描述
本公司为具有悠久历史的德国家族企业在中国的子公司。
独家经销并代理欧洲著名品牌镜架。
根据业务需要,拟招聘四位销售代表。
年龄:
30-45岁。
有同领域经验者为优先考虑。
应聘者应能适应每月出差的工作特性。
有一定的英文水平。
身体健康,无不良嗜好。
应具备一定的销售才能,能吃苦耐劳,有独立的工作能力。
工作范围:
全国中、大城市
1、具有良好的沟通、协调能力和道德素质。
2、有敏锐的市场洞察力、灵活处理突发事件的能力;
3、有良好形象、性格开朗、乐观向上,思维敏捷,责任心强,注重工作效率;
4、为人正直、善于沟通,具有高度的敬业和团队合作精神;
5、具有较强的活动及组织能力,执行能力、有开拓进取和创新精神。
6、有良好的团队合作精神和敬业精神。
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粉丝团(4)|
MENRAD---鸣乐是一家拥有四代历史的德国家族企业。
如今销售及制造子公司已遍及德国、瑞士、奥地利、荷兰、英国及中国等全球各地。
延续四代的家族链以德国人的信守精神展示了MENRAD----鸣乐家族的百年轨迹。
本公司为其在中国的子公司。
独家经销并代理德国及欧洲著名品牌镜架。
根据业务需要,拟招聘两位销售代表。
年龄:
28-45岁。
有同领域经验者为优先考虑。
应聘者应能适应每月出差的工作特性。
有一定的英文水平。
身体健康,无不良嗜好。
应具备一定的销售才能,能吃苦耐劳,有独立的工作能力。
工作范围:
全国中、大城市
BuildinganExecutiveInformationSystemforMaintenanceEfficiencyinPetrochemicalPlants—AnEvaluation OriginalResearchArticle
ProcessSafetyandEnvironmentalProtection,Volume85,Issue2,2007,Pages139-146
W.T.Hwang,S.W.Tien,C.M.Shu
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AbstractAbstract|Figures/TablesFigures/Tables|ReferencesReferences
Abstract
Thisstudyusedthemanufacturingprocessinthepetrochemicalindustriesasanexampleanddevelopedadedicatedmaintenanceprogrammeandexecutiveinformationsystem(EIS)forthisindustry.ThesoftwareforEISwasestablishedonaCMMSplatform,withlogicalandextractiveanalysisusedtostoretheinformationinaKPIdatabank.Thesystemdevelopedcanprovideplantmanagersandengineerswithacompletesummaryofinformationandkeepthemupdatedregardingthepresentstatusoftheirmaintenanceefforts.Theobjectiveofthisstudywastoestablishamanagementsystemformaintainingknowledgeinthepetrochemicalindustries,suchasthemanagementofstandardoperatingprocedures(SOPs),historicalrecordsandtheanalysisofdataforthefacility.Todesignthesoftware,areviewofpetrochemicalfacilitywaspurposedtoenhancethemaintenanceeffortsandfacilitatethedecision-makingprocess.Themainfunctionsofthesystemincludeassetreliabilityanalysis,failureanalysisandmaintenancebenefitcostanalysis.Forthepetrochemicalindustry,theimpactofsafetyandenvironmentcausedbyequipmentmalfunctionismoresubstantialthanthatofotherindustries.Ifexecutivescanmanageessentialpointseffectivelyandmakedecisionsaccordingtoakeyperformanceindex,riskstosafetyandenvironment,whichresultfromequipmentmalfunction,canbedecreasedandsafetycanbeenhancedforpetrochemicalrefineries.
ArticleOutline
Introduction
ResearchStructure
Definition
IndexEstablishmentandPreliminaryDesign
SystemDesign
IndexDesign
SystemDevelopment
Securityanduserprivilegesmanagement
Systemstructure
Systeminterface
DataRequirements
FunctionRequirements
Conclusions
References
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52
Datacenterdesignandlocation:
Consequencesforelectricityuseandgreenhouse-gasemissions OriginalResearchArticle
BuildingandEnvironment,Volume46,Issue5,May2011,Pages990-998
ArmanShehabi,EricMasanet,HillaryPrice,ArpadHorvath,WilliamW.Nazaroff
Closepreview | Supplementarycontent
| Relatedarticles | Relatedreferenceworkarticles
AbstractAbstract|Figures/TablesFigures/Tables|ReferencesReferences
Abstract
Therapidlyincreasingelectricitydemandfordatacenteroperationhasmotivatedeffortstobetterunderstandcurrentdatacenterenergyuseandtoidentifystrategiesthatreducetheenvironmentalimpactofthesebuildings.Thispaperbuildsonpreviousdatacenterenergymodelingeffortsbycharacterizinglocalclimateandmechanicalequipmentdifferencesamongdatacentersandthenevaluatingtheirconsequencesforbuildingenergyuse.CitiesintheUnitedStateswithsignificantdatacenteractivityareidentified.Representativeclimateconditionsforthesecitiesareappliedtodatacenterenergymodelsforseveraldifferentprototypicalspacetypes.Resultsindicatethatwidespread,effectiveeconomizeruseindatacenterscouldreduceenergydemandfordatacentersbyabout20–25%,equivalenttoanenergyefficiencyresourceintheUSof
13–17billionkWhperyear.Almosthalfofthepotentialsavingswouldresultfrombetterairflowmanagementandpropercontrolsequences.Thetotalenergysavingspotentialofeconomizers,althoughsubstantial,isconstrainedbytheirlimitedpotentialforuseinserverclosetsandserverrooms,whichtogetherareestimatedtoaccountforabout30%ofalldatacenterenergydemand.Incorporatingeconomizeruseintothemechanicalsystemsoflargerdatacenterswouldincreasethevariationinenergyefficiencyamonggeographicregions,indicatingthatasdatacenterbuildingsbecomemoreenergyefficient,theirlocationswillhaveanincreasingeffectonoverallenergydemand.Differencesamongregionsbecomeevenmoreimportantwhenaccountingforgreenhouse-gasemissions.Futuredatacenterdevelopmentcouldconsidersitelocation,alongwithefficiencymeasures,tolimittheenvironmentalimpactattributabletothisincreasinglyprominenteconomicsector.
ArticleOutline
1.Introduction
2.Methods
2.1.Serverclosets
2.2.Serverrooms
2.3.Localizeddatacenters
2.4.Mid-tierdatacenters
2.5.Enterprisedatacenters
2.6.Additionalnon-ITpowerloads
3.Resultsanddiscussion
4.Limitationsandfutureresearch
4.1.Characterizationofserverclosets
4.2.SpacetypedistributionofITenergy
4.3.Regionaldistributionofdatacenters
4.4.Greenhouse-gasemissionsfromdatacenters
5.Conclusion
Acknowledgements
Appendix.Supplementarymaterial
References
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StrategicplanningoncarboncapturefromcoalfiredplantsinMalaysiaandIndonesia:
Areview OriginalResearchArticle
EnergyPolicy,Volume37,Issue5,May2009,Pages1718-1735
M.R.Othman,Martunus,R.Zakaria,W.J.N.Fernando
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AbstractAbstract|Figures/TablesFigures/Tables|ReferencesReferences
Abstract
MalaysiaandIndonesiabenefitinvariouswaysbyparticipatinginCDMandfrominvestmentsintheGHGemissionreductionprojects,interalia,technologytransfersuchascarboncapture(CC)technologyfortheexistingandfuturecoalfiredpowerplants.Amongthefossilfuelresourcesforenergygeneration,coalisofferinganattractivesolutiontotheincreasingfuelcost.TheconsumptionofcoalinMalaysiaandIndonesiaisgrowingatthefastestrateof9.7%and4.7%,respectively,peryearsince2002.ThetotalcoalconsumptionforelectricitygenerationinMalaysiaisprojectedtoincreasefrom12.4milliontonsin2005to36milliontonsin2020.InIndonesia,thecoalconsumptionforthesamecauseisprojectedtoincreasefrom29.4milliontonsin2005to75milliontonsin2020.CO2emissionfromcoalfiredpowerplantsareforecastedtogrowat4.1%peryear,reaching98milliontonsand171milliontonsinMalaysiaandIndonesia,respectively.
ArticleOutline
1.Introduction
1.1.Thecleandevelopmentmechanism
1.2.CanMalaysiaandIndonesiabenefitfromCDM?
1.3.Policies
1.3.1.Malaysiaenergypolicy
1.3.2.Indonesiaenergypolicy
1.3.3.Industrialisedcountriesenergypolicy
2.Carboncaptureandstorage
2.1.CO2capture
2.2.CoalplantandCC
2.2.1.CO2emissioninMalaysia
2.2.2.CO2emissioninIndonesia
3.ChoicesofcoalfiredpowerplantsforMalaysiaandIndonesia
3.1.Capturetechnologies
4.Conclusions
Acknowledgements
References
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54
Environmentalimpactassessmentofdifferentdesignschemesofanindustrialecosystem OriginalResearchArticle
Resources,ConservationandRecycling,Volume51,Issue2,August2007,Pages294-313
AditiSingh,HelenH.Lou,CarlL.Yaws,JackR.Hopper,RalphW.Pike
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AbstractAbstract|Figures/TablesFigures/Tables|ReferencesReferences
Abstract
Industrialecosystemisanimportantapproachforsustainabledevelopment.Inanindustrialecosystem,agroupofindustriesareinter-connectedthroughmassandenergyexchangesformutualbenefits.However,somemassandenergyexchangeactivitiesmaycauseunexpectedenvironmentalimpacts.Therefore,itisvitaltoevaluatetheenvironmentalimpactsofthesymbiosisinordertoprovideaclearguidanceforthedecision-makersandstakeholders.
Theagro-chemicalcomplexintheLowerMississippiRiverCorridorwiththirteenchemicalandpetrochemicalindustriesemitshugeamountofcarbondioxide.Abi-leveldesignmethodologyisusedtoreconfigurethiscomplexforutilizingsurpluscarbondioxide.Byusingasuperstructure-basedapproach,anewdesignschemeforthisindustrialecosystemisproposed.Inthispaper,anLCA-typeenvironmentalimpactassessmentofdifferentdesignschemesforthiscomplexisconductedusingthesoftwareTRACI,atooldevelopedbytheUnitedStatesEnvironmentalProtectionAgency(USEPA).Thisanalysiscomparesvariousenvironmentalimpactsofdifferentdesignsandidentifiesthepotentialtrade-offsindifferentenvironmentalimpactcategories.Thisinformationprovidesdeepinsightabouttheenvironmentalsustainabilityofindustrialecosystemsandfacilitatesthedevelopmentofthemosteco-effectivesymbiosisforrecycle,reuseandresourceconservation.
ArticleOutline
1.Introduction
2.Lifecyc
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