Thermodynamics-An Engineering Approach工程热力学
Thermodynamics-An Engineering Approach 工程热力学 1
能量Energy烩熵EnthalpyEntropy火用Exergy火无Anergy火积Entransy
Energy Enthalpy Entropy Exergy Anergy Entransy 2 能量焓熵 火用 火无 火积
物理量G的中文名称由来炳的由来1923年普朗克到南京讲entropy,物理学家胡复教授任翻泽,由于它概念太复杂,就想了个简单的办法,根据dS=SQ/T,认为S是热量与温度之商,而且与火“滴”有关,从而构成新字名称的由来:G是热清华大学过增元院士提出的。根据G=Q.T/2,炳量与温度之乘积,而且与热有关,从而构成新字摘自清华大学过增元院士的2015.9.24学术报告幻灯片
物理量G的中文名称由来 熵 的由来 1923年普朗克到南京讲 entropy,物理学家胡剛复教授任 翻泽,由于它概念太复杂,就想了个简单的办法,根 据 dS=δQ/T,认为S 是热量与温度之商,而且与火 有关,从而构成新字 “熵” 名称的由来: 清华大学过增元院士提出的。根据 G = QvT/2, G 是热 量与温度之乘积,而且与热有关,从而构成新字 ◎ ◎ 摘自清华大学过增元院士的2015.9.24学术报告幻灯片
物理量G的英文名称由来克劳修斯(1865)创造entropy(炳)的由来因为它与能量相关,所以用字头en,又因它代表热功转换能力,则用希腊字转变的tropy作字段,所以构成新字en-tropy福(积entransy (的由来因为它是与能量相关,所以用字头en,又因它代表热量传递能力,则用具有传递含义的字段transy,所以构成新字en-transy摘自清华大学过增元院士的2015.9.24学术报告幻灯片
克劳修斯(1865)创造 entropy(熵)的由来 因为它与能量相关,所以用字头 en,又因它代表 热功转換能力,则用希腊字转变的 tropy 作字 段, 所以构成新字 en-tropy entransy ( )的由来 因为它是与能量相关,所以用字头 en,又因它 代表热量传递能力,则用具有传递含义的字段 transy, 所以构成新字 en-transy ◎ ◎ 物理量G的英文名称由来 摘自清华大学过增元院士的2015.9.24学术报告幻灯片
HeatEngine,热机制冷机Refrigerator,热泵Heat Pump
Heat Engine, 热机 Refrigerator,制冷机 Heat Pump,热泵 5
Heat Engine(热机): the devices converting heat to workcanbe characterized as- Receive heat (Qμ) from a high temperature source (solar energy,furnace)- Convert part of these heat to work (W) (usually rotating shaft)-Reject theremaining waste heat (Q,)to a low-temperaturesink(theatmosphere,rivers,etc.)-Operateona cycle.- Usually involves a fluid, called working fluid(工质),E.GInternalcombustionengine(内燃机:汽油机和柴油机等)ExternalcombustionEngine(蒸汽发电厂系统等)
• Heat Engine(热机):the devices converting heat to work, can be characterized as – Receive heat (QH) from a high temperature source (solar energy, furnace) – Convert part of these heat to work (W) (usually rotating shaft) – Reject the remaining waste heat (QL ) to a low-temperature sink (the atmosphere, rivers, etc.) – Operate on a cycle. – Usually involves a fluid, called working fluid(工质). E.G Internal combustion engine(内燃机:汽油机和柴油机等) External combustion Engine(蒸汽发电厂系统等) 6
ThermalEfficiency(热机效率):等于做功W除以吸收热量QConservation of EnergyPrinciple(能量守恒定律)吸收热量Q.=做功W+放出热量Q热机最高效率??:20??=1Nth, rev =W/Qμ=1-100Q
• Thermal Efficiency(热机效率): 等于做功W除以吸收热量QH。 • Conservation of Energy Principle(能量守恒定律) 吸收热量QH =做功W+放出热量QL • 热机最高效率??: 7 QL QH TL TH η = 1 - th, rev =W/QH=1- 20 100 ??= 1 - 可逆
AuthorsProfessorYunusA.CengelUniversity ofNevada,RenoDr.Michael A. BolesNorth Carolina State University·Turkey(土耳其)turkey(火鸡)烤火鸡,必须具备一定的热力学常识
Authors • Professor Yunus A.Cengel—University of Nevada, Reno • Dr. Michael A. Boles— North Carolina State University 8 •Turkey(土耳其) turkey(火鸡) 烤火鸡,必须具备一定的热力学常识
Thermodynamics is not an easy subject. Thermodynamics is a funny subject.- The first time you go through it: you don't understandit at all; The second time you go through it, you think youunderstand it, except for one or two points;- The third time you go through it, you know you don'tunderstand it, but by that time you are so used to thesubject, it doesn't bother you anymore.---ArnoldSommerfeld
Thermodynamics is not an easy subject • Thermodynamics is a funny subject. – The first time you go through it: you don’t understand it at all; – The second time you go through it, you think you understand it, except for one or two points; – The third time you go through it, you know you don’t understand it, but by that time you are so used to the subject, it doesn’t bother you anymore. – -Arnold Sommerfeld
Thermodynamics ? ?FromGreekwords:Therme→heat →热thermo(-)dynamics热力学Dynamispower→动力热情激情热力学努力科学教学学习
Thermodynamics ?? 热 力 学 From Greek words: Therme→heat →热 thermo(-)dynamics Dynamis→power →动力 热力学 热情 激情 努力 科学 教学 学习