綜采工作面雙塵源多場耦合模型及仿真模擬研究

綜采工作面雙塵源多場耦合模型及仿真模擬研究綜采工作面雙塵源多場耦合模型及仿真模擬研究

摘要：針對綜采工作面雙塵源問題，本文提出了一種雙塵源多場耦合模型，旨在準確描述綜采工作面雙塵源的復雜物理過程及其相互作用。首先，本文對綜采工作面雙塵源實驗進行了設計，并采用三維激光散斑儀和無人機進行了實驗測量，得到了不同風速下的顆粒濃度分布及塵源位置信息。接著，基于顆粒動力學理論，建立了包括顆粒運動、氣流運動和塵源運動三個子模型的耦合模型，并通過數(shù)學計算來模擬模型的復雜物理過程，得出了工作面內(nèi)顆粒濃度和塵源位置隨時間的變化規(guī)律。最后，通過Fluent軟件對所建模型進行了仿真模擬，并與實驗結(jié)果進行了對比與分析，驗證了模型的可靠性和準確性。

關(guān)鍵詞：雙塵源；多場耦合模型；顆粒動力學；綜采工作面；仿真模擬

Abstract:Inviewofthedoubledustsourceproblemonthecomprehensiveexcavationworkingface,thispaperproposesadoubledustsourcemulti-fieldcouplingmodel,aimingtoaccuratelydescribethecomplexphysicalprocessanditsinteractionofthedoubledustsourceonthecomprehensiveexcavationworkingface.Firstly,thispaperdesignsthedoubledustsourceexperimentonthecomprehensiveexcavationworkingface,andusesathree-dimensionallaserspeckleinstrumentanddronestomeasuretheparticleconcentrationdistributionanddustsourcepositioninformationunderdifferentwindspeeds.Then,basedontheparticledynamicstheory,acouplingmodelwiththreesub-models,includingparticlemotion,airflowmotion,anddustsourcemotion,isestablished,andthecomplexphysicalprocessofthemodelissimulatedthroughmathematicalcalculationstoobtainthechangeinparticleconcentrationanddustsourcepositionovertime.Finally,theFluentsoftwareisusedtosimulatetheestablishedmodel,andthesimulationresultsarecomparedandanalyzedwiththeexperimentalresultstoverifythereliabilityandaccuracyofthemodel.

Keywords:doubledustsource;multi-fieldcouplingmodel;particledynamics;comprehensiveexcavationworkingface;simulationThedoubledustsourceonacomprehensiveexcavationworkingfaceposesasignificantchallengeforcontrollingandreducingdustemissions.Tounderstandandmitigatetheseemissions,amulti-fieldcouplingmodelintegratingparticledynamics,fluiddynamics,andthermodynamicsisproposed.

Themodelisbasedonthediscreteelementmethod(DEM),whichdescribesthemotionofindividualparticlesinresponsetoexternalforcessuchasgravity,airflow,andparticle-particleinteractions.TheDEMmodeliscoupledwithcomputationalfluiddynamics(CFD)tocalculatethefluidfieldaroundthedustsource,whichisusedtodeterminethedustdispersionpatternandtrajectory.Thethermodynamicaspectofthemodelisusedtocalculatethetemperatureoftheairandthedustsource,whichaffectsthedustcollectedandthedustsource'sevaporationrate.

Thesimulationprocessiscarriedoutintwosteps.Thefirststepistocalculatethechangeinparticleconcentrationovertime,andthesecondstepistocalculatethedustsource'spositionconcerningtime.Finally,theFluentsoftwareisusedtosimulatetheestablishedmodel.Thesimulationresultsarethencomparedandanalyzedwiththeexperimentaldatatoverifythemodel'sreliabilityandprecision.

Theproposedmulti-fieldcouplingmodelcansignificantlyimprovethedustreductionefficiencyonacomprehensiveexcavationworkingface.Itprovidesadetailedunderstandingofthedustsource'scharacteristics,dustdispersionpattern,andtrajectory,whichhelpstooptimizedustmitigationstrategies.Themodelcanbeappliedtootherdustemissioncontrolapplicationsandcancontributetothedevelopmentofefficientandcost-effectivedustcontrolstrategiesInadditiontoimprovingdustreductionefficiency,theproposedmulti-fieldcouplingmodelhasotherpotentialapplications.Itcanbeusedtostudythedispersionofothertypesofpollutants,suchassmoke,fumes,andgases.Themodelcanalsobeadaptedtosimulatethedispersionofairborneviruses,whichisimportantforpublichealthincrowdedindoorspaces.

Themodel'sabilitytopredictthedustdispersiontrajectoryandconcentrationcanbeutilizedforairqualitymonitoringandriskassessment.Theinformationprovidedbythemodelcanhelptodeterminetheareaaffectedbythedustemissionandtoidentifythepeopleandtheassetsatrisk.Thisinformationcanbeusedtodesignemergencyresponseplans,tolocateairqualitymonitoringstations,andtosetupeffectivedustcontrolmeasures.

Themulti-fieldcouplingmodel'sflexibilitycanalsobeusedtostudytheeffectofdifferentdustcontrolmeasures.Forexample,bycomparingthemodel'spredictionsofthedustconcentrationanddispersiontrajectorybeforeandaftertheimplementationofaparticulardustcontroltechnology,theeffectivenessofthetechniquecanbeevaluated.Thiscanbeusedtooptimizedustcontrolstrategiesandtoidentifythemosteffectiveandcost-efficienttechnologiesfordustemissionmitigation.

Overall,theproposedmulti-fieldcouplingmodelisausefultoolforstudyingthedispersionofdustandotherairbornecontaminants.Itsabilitytosimulatetheinteractionofdifferentphysicalfields,suchasfluidmechanics,thermodynamics,andparticledynamics,providesadetailedunderstandingofdustemissionsourcesanddispersionpatterns.Thisinformationcanbeusedtooptimizedustcontrolstrategies,toimproveairqualitymonitoring,andidentifythemosteffectiveandcost-efficientdustemissionmitigationtechnologies.ThemodelisavaluablecontributiontothefieldofenvironmentalengineeringandhasthepotentialtomakeasignificantimpactonpublichealthandtheenvironmentOneofthekeyapplicationsofthedustemissionmodelisintheminingindustry.Miningoperationshavebeenshowntobeamajorsourceofparticulatematteremissions,whichcanhaveserioushealthimpactsonworkersandnearbycommunities.Themodelcanbeusedtoidentifythespecificsourcesofemissionswithinaminingoperation,suchasblasting,drilling,andmaterialhandling,andtopredictthedispersionpatternsoftheseemissions.Thisinformationcanthenbeusedtodesignandimplementeffectivedustcontrolmeasures,suchaswatersuppression,windbarriers,andventilationsystems.

Inadditiontotheminingindustry,thedustemissionmodelhasapplicationsinarangeofotherindustries,includingconstruction,transportation,andagriculture.Forexample,inconstructionsites,themodelcanbeusedtooptimizetheuseofdustcontroltechnologies,suchaswettingagentsanddustsuppressionsprays,tominimizedustemissionsandworkerexposure.Intransportation,themodelcanbeusedtostudythedispersionofdustparticlesfromroadsandrailroads,andtodesigneffectivemitigationmeasures,suchasimprovedroadsurfacesandvegetationbarriers.Inagriculture,themodelcanbeusedtostudythesourcesanddispersionofdustfromplowing,harvesting,andanimalhusbandry,andtodesignmeasurestoreducethehealthimpactsonworkersandnearbycommunities.

Thedustemissionmodelalsohasimportantapplicationsinairqualitymonitoringandmanagement.Dustparticlesareamajorcontributortoairpollution,andthemodelcanbeusedtopredicttheconcentrationsofdustparticlesintheair,bothindoorsa