Post on 20-Feb-2021
HRL Technology Group Pty Ltd ABN 89 609 887 327 info@hrl.com.au hrl.com.au
Melbourne Level One Unit 4 677 Springvale Road Mulgrave VIC 3170 Phone +61 3 9565 9888 Fax +61 3 9565 9879
Morwell Tramway Road Morwell VIC 3840 Phone +61 3 5132 1500 Fax +61 3 5132 1580
Queensland Unit 2 33-37 Rosedale Street Coopers Plains QLD 4108 Phone +61 7 3423 4300 Fax +61 7 3345 5937
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Planttroubleshootingandsolutionsforenergy-intensiveindustries
Usingasuiteofprocesssimulationtoolstoidentifythesourceofplantperformanceproblemsandtoprovidecost-effectivesolutionstothoseproblems.hrl:providestroubleshootingservicesandsolutionstopowergenerators,miners,mineralprocessors,andmanufacturingindustries,includingcementandpaper,acrossAustraliaandaroundtheworld.Inadditiontosupportingplantoperators,HRLTechnologyGroupassistsOriginalEquipmentManufacturers(OEMs),engineering,serviceandcontractingcompanies,insuranceandlegalfirms,researchorganisationsaswellasgovernmentagencies.Industriesoperateinanextremelycompetitiveandchallengingenvironmentthatplacesconsiderablepressureonmaximisingplantperformance.Plantoperatorsfacegrowingpressurestolimitemissions,fuel-useandmaintenancecosts,whileimprovingthereliabilityoftheirplant.Issuessuchasoverheatingorerosioncandisruptplantoperationleadingtoinefficiencyandpossibleplantdowntime.hrl:understandstheneedtopinpointandrectifyplantperformanceissuesswiftlyandwithminimumtotalcost.hrl:offersprocesssimulationandmodellingtoolsthatallow:• testingofalternativemodificationoptions• quantifyingofperformanceimprovements• accurateup-frontcost-benefitanalysis.Modellingcanbeundertakenbeforeaplantoperatormakesanycommitmenttoplantmodification.
Challenges
Performanceproblemsthatplantoperatorscanfaceinclude:• lowefficiency• hightemperaturesoroverheating• fouling• fuelburnoutincludingcharandCO(carbonmonoxide)
carryover• poorflowdistribution• erosion• productqualityissues• NOx(nitrogenoxides)andSOx(sulphuroxides)
production..
hrl:providestroubleshootingservicesandsolutionstoenergy-intensiveindustries
hrl:utilisesprocesssimulationandmodellingtools
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Performanceproblemscanarisefromday-to-dayoperationandfromoperator-introducedchangessuchas:• introducinganalternativefuelsupply• operatingatalowerload/throughput/productionrate• changingcontrolsettingssuchasburneroperating
settings• retrofittingplant.
Analysisofboilercombustion Challengesoperatorsfaceinmaximisingplantperformanceandincreasingefficiencyinclude:• identifyingoptionsforimprovingplantperformance• predictingandquantifyingtheimpactanoptionwillhave
onplantprocesses• determiningthemostcost-effectiveoptions• re-evaluatingcost-prohibitiveefficiencyprojectsinlight
ofthecarbontaxandtheEnergyEfficiencyOpportunities(EEO)program
• evaluatinglong-termabatementactionsforcontinuingoperationsinalower-emissionseconomy
• identifyingandapplyingforgovernmentassistancepackageswhereappropriate
Simulationofmillprocesses
Solutions Addressingplantperformanceproblemsorimprovingperformancerequiresanunderstandingofwhatishappeninginsideaplant.hrl:expertprocess-modellingserviceprovidesanon-intrusivemethodto‘lookinside’aplantandtoassessprocessflows.hrl:servicesoffercost-effectiveandlow-riskalternativesfordeterminingtherootcauseofaproblemandfordevelopingfeasiblesolutions,thoseservicesinclude:ANSYSFluentFluentispowerfulcomputationalfluiddynamics(CFD)modellingsoftwarethatcanproducethree-dimensionalmodelsofanyflowsystem–excellentfortroubleshootingsystemswithtwo-phaseflowandchemicalreactions.AspenPlusAspenPlusisprocess-simulationsoftwarewidely-usedinconceptualdesign,optimisationandperformancemonitoringtoassistinimprovingperformanceormaximisingefficiency.ThermoflowTheThermoflowsuiteofprograms–STEAMPRO,STEAMMASTER,GTPRO,GTMASTERandTHERMOFLEX–isusedinanalysing,designingandcostingconventionalsteam-cycleandgas-turbinecombined-cycleplant–toaddressdesignandperformanceissuesincludingairflows,alternativefuelsandcontrolmodifications.
BenefitsThebenefitsclientsenjoybydrawingonhrl:extensiveexperienceinprocesssimulationinclude:• accurateandquickidentificationoftherootcausesof
plantperformanceproblems• assistanceinunderstandingcurrentplantperformance
andlimitations• astrongtheoreticalunderstandingofprocessissues
backedbyyearsofpracticalexperienceandexpertise• drawingonhighlyskilledtechnologiststoproduceresults
andrecommendationsthatcanwithstandscrutiny• modellingofalternativemodificationoptionsto
determinethecost-benefitequationbeforecommittingtoplantmodification
• resultsthatcanbecoupledwithEnergyEfficiencyOpportunities(EEO)programsandgreenhousecreditsassessments
• assistanceinimplementingplantmodifications.
Advancedboilerdesign
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CaseStudy1Determiningthecauseofcrackinginaonce-throughsteamgenerator AnLNGplantexperiencedpropagatedcrackingintheheaderofaonce-throughsteamgenerator.hrl:expertsproposedusingthermodynamicsoftware–ThermoflowandAspen–toprovidenon-invasiveandlow-riskanalysistoidentifytherootcause.Thecrackingwasaresultofparticularoperatingconditions,unstablewater-flowpatterns,andmal-distributionofflue-gasflowovertheinternaltubes.hrl:provideddesignandoperationalrecommendationstopreventfuturecracking–helpingtoensuretheLNGplantcouldavoidunexpectedoutagesandsafetyissuesduetocompromisedoperationofthesteamgenerator. CaseStudy2Foulingandtoxicgasmitigationinawaste-combustionfurnace Afterinstallinganewfluidised-bedboilerawasteandrecyclingplantexperiencedoccasionaltoxicgasexcursionsandfouling.hrl:personnelusedcomputationalfluiddynamics(CFD)modellingtosimulatecombustion,heattransfer,andflowwithinthefurnace.Themodellinghelpedtodeterminetheeffectofdifferentfurnaceconfigurationsongastemperaturesandfuelburnout.Next,Thermoflowsoftwarewasusedtoinvestigatetheimpactofthesechangesonoverallcycleperformance.hrl:proposedamodificationtoimprovefurnace-heattransferandreducewalltemperatures,effectivelyeliminatinganyfouling.TheThermoflowmodellingindicatedthatthemodificationwouldhaveminimalimpactonoverallcycleperformance.
CaseStudy3Modellingwaste-heatrecovery Amineralsprocessor,usingwasteheatfromakilntoproduceelectricity,wasexperiencingseveralissues.Incompletecombustioninanafterburnerresultedinavisibleplumeexitingthestack.hrl:expertsproposedcreatingacomputationalfluiddynamics(CFD)modeloftheafterburnertoassessperformanceofmodificationsproposedtoimprovecombustion.
Resultsfromthemodellingidentifiedafeasiblemodificationthatcouldincreasecoalandcharresidencetimestoavoidthevisibleplume.Themineralsprocessoralsohadcrackingissuesintheboilerupstreamoftheafterburner.hrl:experiencedstaffworkedtogetherwiththeirclienttocreateaThermoflowmodelofthewaste-heatrecoveryplanttobetterunderstandflue-gastemperaturesandflows,foulingandtheeffectofairingress.Then,theexpertsusedAspensoftwaretomodelwaterandsteamcirculationintheboilertubes.Themodellingindicatedthelikelycauseofthecrackingwasheattransferonanunprotectedsurfaceofthedrum.Thermalinsulationisnowused.
Contact AlexBlatchford
Telephone+61395659873Mobile+61408319842Emailablatchford@hrl.com.au
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Thecompany’sNATAAccreditedLaboratoriesnumberis561.
HRLTechnologyGroup’sISO9001QualityManagementis
certifiedbyBSIundercertificateFS605116
Ó2016HRLTechnologyGroupPtyLtd
V20170430QA885A