Green Cloud Computing: Case Study Sri Lanka & Pakistan .28-30 July 2015 Colombo, Sri Lanka Sameer

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  • 28-30 July 2015Colombo, Sri Lanka

    Sameer Sharma, Senior Advisor

    Regional Office Asia-Pacific

    Green Cloud Computing: Case Study Sri Lanka & Pakistan

  • RecallingITUTRCSLWorkshopin2013

    ITUTRCSLWorkshoponGreeningtheFuture:BridgingtheStandardizationGaponEnvironmentalSustainability 34Oct2013,Colombo,SriLanka

    Itwasattendedby74participantswheresixinternationalexpertsincludingchairmanandvicechairmanifITUTStudyGroup5WorkingParty3

    ChairmanofTRCSLreaffirmedcommitmentofSriLankatoestablishSmartSriLankawhichreceivedfullsupportfromindustry.

    ITUproposedtwoconcreteactionableitemsonsmartsustainablesocietyusingICTinSriLanka.

    i. Developmentofewastepolicyii. StandardizedGreenDataCenterProtocol

  • Developmentofewastepolicy

    i. Analyzecurrentcountrywastepractices;ii. comparingcountryewastemanagementwith

    thedescriptioncontainedintheToolkitonenvironmentalsustainabilityfortheICTsector

    iii. developawrittenquestionnairetoseekinputfromstakeholdersinSriLankaontheewastemanagementpossibilityascollectionrecycling;

    iv. consultwithkeystakeholdersasappropriate;

  • Development ofewastepolicy

    v. prepareaDraftNationalewastePolicyfocusedonachievingaffordableewastemanagement);

    vi. conductanationalworkshopaimedatinforming,educating,gatheringinformationfromthestakeholdersandsharingproposals;

  • ConcreteDeliverables

    ConsultationPapercontainingdetailedanalysis

    includingitems16above;

    DraftNationalewastePolicyforSriLanka

    (incorporatingimplementationguidance)with

    Annexurecontainingcountrycontextandanalysis

    MissionReportimmediatelyafterthefieldmission

  • StandardizedGreenDataCenterProtocol

    1.CreateaDataCenterlandscape(stateofDataCentersinSriLanka)including

    a. allthekeystakeholders government,ICTindustry,energyefficiencyorganizations,academia

    b. DevelopacompletelistofcurrentlyoperatingdatacentersinSriLankawithhighleveldetailsincludingsize,energyfootprintandpowermetrics,capacity,currentoperationalpractices includinggreen

    i. Usingpubliclyavailabledataii. Consultationwithlocaldatacenterpersonneliii. WrittenQuestionnaire

  • StandardizedGreenDataCenterProtocol

    2. Select3datacentersfromtheabovelist(1b).TheCriteriaforselection(needstobeproposedandagreedtobytheSeniorAdvisor),butcouldinclude notlimitedto

    a. Ownership/Operation:Governmentvs.Private

    b. Agec. Sized. EnergyPerformance

  • 3. Conducta1stleveldetailedphysicalEnergyAuditofthe3selecteddatacenters.Thisdatacenterinspectionanddatacollectionwillinclude

    a. OverallFacilityb. Racks&Cablingc. PowerMetricsd. CoolingMetricse. EnvironmentalConditions&AirManagement

    Metricsf. OverallDataCenterPerformanceMetrics

    StandardizedGreenDataCenterProtocol

  • 4. DetailedAnalysistocompareGlobalBestPracticeswiththatinSriLankatomakeasetofspecificrecommendationstotheSriLankadatacenterindustry.Usebenchmarksandinformationfrom ITURecommendationL.1300onBestPractices

    forGreenDataCenters LawrenceBerkeleyNationalLaboratories(LBNL)

    BenchmarksandGuidelines SingaporeStandards(SS564)onGreenData

    Centers

    StandardizedGreenDataCenterProtocol

  • 5. Consultwithkeystakeholdersasappropriate;6. PrepareaDraftaSriLankaDataCenterPolicy

    focusedonspecificactionableitemssuchasrecommendedenergyusagelevels,protocolsforauditinganddetailedmeasurementmethodologiesforbothexistingandnewdatacentersinSriLanka.

    7. Conductanationalworkshopaimedatinforming,educating,gatheringinformationfromthestakeholdersandsharingproposals

    StandardizedGreenDataCenterProtocol

  • ConcreteRecommendations

    ConsultationPapercontainingdetailedanalysis;

    DraftNationalDataCenterPolicyforSriLanka(incorporatingimplementationguidance)withAnnexurecontainingcountrycontextandanalysis

  • NextSteps

    Agreementandconsensusonthetwoproposals

    AdoptionandendorsementbyTRCSL,IndustryandITUasoutcome

    Nominateindustryfocalpoints Carryoutthestudyinspecifictimeframe Partnership/Funding? Anyother?

  • Enabling Energy Efficiency through ICTs: Pakistan

  • Objectives

    IdentifyareasandbestpracticesthroughwhichenergyefficiencyandreductionofenergyconsumptionmaybeachievedindifferentsectorsofthecountrythroughICTs,withfocusonpowersector.

    ToidentifythepotentialimpactofICTsonthepower/energysectorusingpreexistingknowledgeandexperiencefromInternationalbestpracticesandITUTRecommendations.

    Toevaluatepotentialforimprovementandbarrierstoreachingfullpotential.

    Toproposerecommendations,actionsandaroadmapwhichcanbeundertakentoachievetheidentifiedpotential.

  • Deliverables

    AreportandaroadmapincludingguidelinesandanactionplanhighlightingpotentialareasofimprovementandanapproachtoachievealowcarboneconomythroughICTs.

    Viableplanforapubliclyhelddistributioncompanyfortransmissionanddistributionenergyoptimisation.

    Presentationslidesofentirereport.

  • 3waystoreduceenergyconsumptionthroughICTs

    1. Reducelossesfrompowergeneration,e.g.optimiseelectricitygrid,usemorerenewables.

    2. UseICTstoreduceenergyconsumptioninothersectors(15%).

    3. ImproveenergyefficiencyofICTsthemselves(2.5%).

  • ProblemswithPakistansElectricityGrid

    Demandisgrowingfasterthansupply(andisunderestimated)

    Inefficiencyofpowergrid transmissionlosses2%distributionlosses34%(average)

    Widespreadelectricitytheft

  • SmartGrids

    ICTcanplayimportantroleinincreasingenergyefficiencywhileprovidingpositiveeconomicimpact.

    Smartmetersinpowersystemwouldplayasignificantroleinidentifyingandcorrectinginefficienciesinpowergrid.

    Needforpolicyinterventiontorealisepotential.

  • RoadmaptoSmartGrids

    Phase1SmartMeter(AMR)deploymentPhase2DemandSideManagement(DSM)Phase3Integrationoflargescale

    RenewablesPhase4IntegrationofElectricVehicles(EVs)

  • OptionstoreduceenergyconsumptionofICTs

    Setprocurementlimitsinconjunctionwithothercountriesinregion(e.g.ECCoCs).

    Useecodesign(global)standardsinprocurement. Useenergyefficientnetworkarchitectures e.g.mobilenetworksitesharing.

    EncouragebestpracticesinICTdesign e.g.useoflowpowerstatesforequipment.

    Uselocalrenewablepowersupplies e.g.windandsolaronmobilebasestations.

  • Optionsexploredtoreduceenergyinothersectors

    Smartgrid Telepresence Ecommerce Ecivilservice Elogistics Realtimenavigation Egovernment Smartmotor

    Homeenergymanagementsystem

    Digitalcontents Smartwork Elearning Businformationsystem Ehealthcare