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长春工业大学硕士学位论文I摘要在热力发电厂中,水汽品质是一项重要指标。好的水汽品质可以提高热力设备的性能,延长设备的使用寿命,节约能源,减少事故发生率。反之水汽品质的失调将会给电厂的热工设备造成不同程度的损伤,给机组的安全和电厂稳经济运行带来隐患。所以水汽采样和化学加药是电厂热工过程的两个重要环节。本文根据水汽采样和化学加药的工艺特点,从硬件和控制算法两方面着手设计热力发电厂化学加药控制系统,采用上位机和下位机相结合的系统。上位机用工业计算机和组态软件构成友好的人机界面,方便了系统的操作;下位机采用西门子S7400HPLC进行数据采集和化学加药控制。用工业以太网构成管理层,负责上位机和下位机之间、本系统和电厂其它系统之间的通信。现场总线构成现场设备的控制层,负责现场设备和PLC间的数据传输。设计上从上位机、下位机、以太网到现场总线均采用了冗余结构,来提高监控系统的可靠性。并把这样的系统作为电厂DCS的子系统。为提高系统的实时性,本文研究了DCS的通信问题,介绍了一些提高通信能力的方法。随着电厂规模的日益扩大,工艺水平的不断提高,要求采用更新颖的控制技术来满足工艺的需要。由于化学加药控制系统的非线性、大时滞、时变的特点,常规的控制方法难以获得满意的控制效果。为了提高系统控制的鲁棒性和自适应能力,本课题将模糊控制引入到热电厂化学加药控制系统中。在算法方面,经过研究决定采用参数自适应模糊PID自动加药控制代替手动控制或是传统PID控制,并用仿真曲线来分析其动态性能和抗扰动能力。仿真结果表明,该策略的控制效果优于常规的PID控制,它能适应对象参数的变化,具有较强的鲁棒性和自适应能力。关键词:现场总线;加药;时滞系统;模糊PID控制;长春工业大学硕士学位论文IIAbstractInthethermalpowerplant,theparametersofwaterandsteamofthermalsystemisaimportancetarget.Thegoodparametersofwaterandsteamofthermalsystemcanimprovetheperformanceofthermalequipment,andprolongtheusefullifeofequipment,theusingofdevices,andsaveenergy,reducetheratiooftheaccidents.Contrarily,itwillcausevaryingdegreesofdamageinthermalequipmentofthePowerPlant,andbringhiddentroublesinthesecureandeconomicrunningofthepowerplant,so,thechemicalvaporsamplingandDosingisanimportantlinkforthermalpowerplant.OnthebasesoftheTechnologicalrequirementsofthewaterandsteamofthermalsystemchemicalandthedosingcontrolsystem,thehardwareandcontrolalgorithmisdesignedinthepaper.Inthehardwaredesign,theupperandthehypogynousarecombinedinthedesign,theupperofthesystemiscomposedofPCandSCADAtobemadeofthefriendlyManandMachineInterface,anditfacilitatestheoperationofthesystem.ThehypogynousofthesystemadoptsSiemensS7400HPLCtocollectdataandtocontroltheprocessofthedosingcontrolsystem.IndustrialEthernetisusedofthemanagement,andseestocommunicationbetweentheupperandthehypogynousorbetweenthesystemandotherplantsystems.FCSisusedoftheControllayer,itseestothedatatransmissionbetweenon-siteequipmentsandPLC.Inthispaper,toincreasethereliabilityoftheMonitoringsystem,theredundantstructureisusedfromthePC、theupper、thehypogynous、theEthernettoFCS.ThesystemislookedonasthesubsystemoftheDCS.Manycommunicationmethodsareintroducedinthispaper,toimprovethereal-timeofthesystem.Withthegrowingscaleofpowerplantsandwiththecontinuousraisingleveloftechnology,itrequirestoupdatethecontrolarithmetic.Sincethechemicaldosingcontrolsystemoffossilpowerplantischaracterizedbynonlinearity,longtimelagandvariationwithtime,satisfyingcontroleffectcannotbeachievedwithtraditionalcontrolmethods.Inordertoincreasetherobustnessandself-adaptabilityofthechemicaldosingcontrolsysteminthesystemofdosingisdesigned.Inthispaper,fuzzycontrolsystemofdosing.Inthealgorithm,Fuzzyself-adaptationPIDcontrolisusedinsteadofthetraditionalmanualcontrolorthetraditionalPIDcontrol,Thedynamicperformanceandanti-disturbanceisanalyzedbysimulation,SimulationresultsshowthatthecontroleffectbythisstrategyissuperiortothatofnormalPIDcascadecontrol.Itisfeaturedbystrongrobustnessandself-adaptability,andcanreadilyaccommodateitselftotheobject'sparametervariations.长春工业大学硕士学位论文IIIKEYWORDS:FCS;Dosing;time-delaysystem;Fuzzyself-adaptationPIDControl长春工业大学硕士学位论文IV目录摘要...........................................................................................................错误!未定义书签。ABSTRACT............................................................................................................................I第一章绪论...........................................................................................错误!未定义书签。1.1课题研究的意义..............................................................................错误!未定义书签。1.2国内外研究现状及趋势..................................................................错误!未定义书签。1.3本文的主要研究内容.....................................................................................................2第二章电厂水汽监控系统介绍............................................................................................42.1电厂DCS系统介绍.......................................................................................................42.1.1DCS系统简介..........................................................................................................42.1.2电厂控制级功能简介:..........................................................................................42.1.3西门子DCS系统——PCS7................................................................................42.1.4电厂辅控网组成....................................................................................................62.2火电厂水汽系统.............................................................................................................72.3化学加药系统原理.........................................................................................................9第三章系统设计原理及功能............................................................................................113.1上位机系统设计...........................................................................................................113.1.1上位机硬件...........................................................................................................