1000MW火电机组水泵节能策略Energysavingstrategyfor1000MWthermalpowerunitpumps摘要随着江苏外来电量的大幅增加、新能源发电的占比提高,火电机组的实际负荷能力明显降低,火电机组年运行小时数逐年稳步下降,火电机组厂用设备耗电量也有所升高。那么,火力发电厂如何降低厂房设备的能耗,提高厂房的能源利用率,进而降低机组煤耗,以减少成本,提高电能上网竞价优势,便成了现在火电行业亟需解决的课题。火力发电厂的厂用电主要来自汽机、锅炉等系统中大型的风机、水泵等辅机设备的电机。本文对机组的节能现状进行分析,针对机组电耗较高的水泵开展节能降耗分析,主要体现在凝结水泵以及循环水泵两个方面。研究循环水泵高、低速两者变化运行的可能性,这种方案实现了循环水泵的高、低速变化。再根据循环水泵高、低速运行情况采取可行的优化运行措施,通过计算与试验制定合理的循环水泵运行方式,力争达到最优的运行方式,使其能够节省更多的能量。从能量消耗方面分析凝结水系统,从而可以进一步分析凝结水泵变频的改造,与此同时也可以进行除氧器水位调节性能的优化,尽量保持除氧器上水调阀在全开状态。改造后提高了凝结水泵所具有的泵的启动特性,降低了控制阀的磨损几率,使设备更加可靠,使用时间更长,使得凝结水泵的能耗和系统节流损失都大大的降低,最终达到设备能耗进一步减少的目的。本文通过对火电机组水泵主要设备节能降耗工作的开展,挖掘了机组的节能潜力,产生了较好的经济效益,有效提升机组的竞争力。该论文共有图17幅,表22个,参考文献67篇。。关键词:火电发电;节能降耗;厂用电;循环水泵;凝结水泵IAbstractDuetothelargeincreaseofexternalelectricityandtheincreaseoftheproportionofnewenergypowergenerationinJiangsuProvince,theloadrateofthermalpowergenerationunitshasdecreasedsignificantly,theannualoperationhoursofunitshavecontinuedtodecrease,andtheauxiliarypowerconsumptionrateofthermalpowerunitshasalsoincreasedcorrespondingly.Therefore,Howtoreducetheenergyconsumptionofplantequipmentandimprovetheenergyutilizationrateofthermalpowerplant,andthenreducethecoalconsumptionofunits,soastoreducethecostandimprovethecompetitiveadvantageofelectricenergyonline,hasbecomeanurgentissueforthethermalpowerindustry.Theauxiliarypowerofthermalpowerplantismainlyduetothelargefan,waterpumpandotherauxiliaryequipmentinsteamturbine,boilerandothersystems.Thispaperanalyzesthecurrentsituationofenergysavingoftheunit,andfindsthatthepumpwithhighpowerconsumptionoftheunitcarriesouttheanalysisofenergysavingandconsumptionreduction,mainlyincludingcirculatingwaterpumpandcondensatepump.Thispaperanalyzeswhythehighandlowspeedtransformationofthecirculatingwaterpumpisfeasible,totransformthehighandlowspeedofthecirculatingwaterpump.Throughcalculationsandexperiments,areasonableoperationmodeofthecirculatingwaterpumpisformulated,andtheoperationsituationafterthetransformationisstrivingtoachievetheoptimaloperationmodeandrealizetheidealenergy-savingeffect.Thispaperalsoanalyzestheenergyconsumptionofcondensatesystem,andanalyzesthefrequencyconversiontransformationofcondensatepump.Thecombinationofcondensatepumpfrequencyconversiontransformationanddeaeratorwaterlevelcontrolmodeoptimizationimprovesthestart-upcharacteristicsofcondensatepump,reducesthewearofcontrolvalve,andimprovesthereliabilityandIIservicelifeoftheequipment;atthesametime,italsogreatlyreducesthepowerconsumptionofcondensatepumpoperationandthethrottlinglossofdeaeratorwatercontrolvalve,andfurtherreducestheauxiliarypowerconsumptionoftheunit.Inthispaper,bystudyingtheenergy-savingandconsumption-reducingworkofthemainequipmentofthethermalpowerunit'swaterpump,theenergy-savi...
