能源与动力工程专业人才培养方案
UndergraduateProgramforEnergyandPowerEngineeringMajor学科门类:工学 代码:08
DisciplineType:Engineering Code:08
专业类:能源动力类 代码:0805
Type:EnergyandPower Code:0805
专业名称:能源与动力工程 代码:080501
TitleoftheMajor:EnergyandPowerEngineering(EPE) Code:080501
一、学制与学位LengthofSchoolingandDegree
学制:四年Duration:Fouryears
学位:工学学士Degree:BachelorofEngineering
二、培养目标EducationalObjectives
本专业培养基础扎实,知识面宽,能力强、素质高,具有一定的创新能力、较强的实践能力和良好的发展潜力的高级专门人才。学生毕业后能胜任现代火力发电厂、核电厂、燃气-蒸汽联合循环电厂及相关的能源与动力工程专业的技术与管理工作,并能从事其它能源动力领域的专门技术工作。
Themissionofthespecialtyistoeducateandcultivategraduatesforadvanced,professionalcareersinpowerengineering.Afterfour-yearcultivation,graduatesmajoredinEnergyandPowerEngineeringwillhavestrongfoundation,broadeducation,productiveability,highquality,innovatoryidea,abilityforpracticeandgreatpotentialityfordevelopment.ThegraduatesmayfindemploymentoftechnologyandmanagementinmodernpowerplantandindustriesinconcertwithEnergyandPowerEngineering.
三、专业培养基本要求SkillsProfile
本专业学生主要学习动力工程及工程热物理的基础理论,学习各种能量转换及能量有效利用的理论和技术,接受现代动力工程师的基本训练,具有进行动力机械、热工设备的设计、运行和试验研究的基本能力。
毕业生应获得以下几方面的知识和能力:
1.具有扎实的自然科学基础,良好的政治理论基础,较好的人文、艺术和社会科学基础;
2.较系统地掌握本专业领域宽广的技术理论基础知识,主要包括工程热力学、工程流体力学、传热学、工程制图、控制理论、电工与电子学等基础知识;
3.具有本专业领域所必须的专业知识,如:锅炉原理、汽轮机原理、热力发电厂等,了解专业前沿及发展趋势;
4.本专业的热能动力工程方向还应具备理论力学、材料力学、机械设计、金属材料等方面的基础知识;电厂集控运行方向还应具备工程力学、电路理论、电机学、单元机组协调控制、单元机组程控与保护等方面的基础知识;燃气轮机发电方向还应具备理论力学、材料力学、机械设计、燃气轮机控制与运行等方面的基础知识;
5.掌握一门外语,具有听、说、写、译的基础,能顺利阅读本专业外文书刊;
6.具有较强的自学能力、研究开发能力、创新意识、组织管理能力和较高的综合素质。
StudentsmajoredinEPEmainlystudythefundamentaltheoryinPowerEngineeringandEngineeringThermalPhysics,theoryandtechnologyofenergytransferandeffectiveuseofenergy,getthebasicskillsofpowerengineers,andacquiretheelementaryknowledgefordesigning,operatingandexperimentalresearchingofthepowermachineryandthermalengineeringequipment.
Intheundergraduateperiod,studentsmajoredinEPEwillacquirethefollowingabilities:
1.Solidbasicknowledgeofnaturalscience,goodfoundationknowledgeofpoliticaltheory,andknowledgeofhumanities,artandsocialscience.
2.SystematicmasteringofbroadandfundamentalknowledgeoftechnologyandtheoryinEPEincludingEngineeringThermodynamics,FluidMechanics,HeatTransfer,ElectricalEngineeringandElectronicsandControlTheory.
3.GoodgraspofprofessionalknowledgeinEPE,suchasPrincipleofSteamBoiler,PrincipleofSteamTurbine,ThermalPowerStation,etcandfamiliarwithmoderntechnologytendencyknowledgeinEPE.
4.TherearethreeminorsforthespecialtyofEPE.BesisethebasicfundamentalknowledgeandprofessionalknowledgeofEPE,minorinThermalEnergyandPowerEngineering(TEPE)willalsoacquirebasicknowledgeofTheoreticalMechanics,TheoreticalMaterials,MachineDesignandMetallicMaterial;minorinPowerStationCentralizedControlOperation(PSCCO)willalsoacquirebasicknowledgeofEngineeringMechanics,CircuitsTheory,ElectricalMachinery,CoordinatingControlofThermalPowerUnitandProgramControlandProtectionSystemofThermalPowerUnit;minorinGasTurbinePowerGeneration(GTPG)willalsoacquirebasicknowledgeofTheoreticalMechanics,TheoreticalMaterials,MachineDesign,ControlandOperationProtectionofGasTurbine,etc.
5.Masteraforeignlanguageandhavetheabilitiesoflistening,speaking,writing,translating,aswellasreadingforeignbooksandperiodicalsfreelyofEPESpecialty.
6.Theabilityofstudyingindependently,researchanddevelopment,innovationideas,organizationandmanagementandahighlycompre