上游充通大学 SHANGHAI JIAO TONG UNIVERSITY Engineering Thermodynamics I Lecture 27 Chapter 6 The second law of Thermodynamics (Section 6.7-6.11) Spring,4/9/2019 强 Prof.,Dr.Yonghua HUANG Anna。 http://cc.sjtu.edu.cn/G2S/site/thermo.html 1日
Engineering Thermodynamics I Lecture 27 Spring, 4/9/2019 Prof., Dr. Yonghua HUANG Chapter 6 The second law of Thermodynamics (Section 6.7- 6.11) http://cc.sjtu.edu.cn/G2S/site/thermo.html
A cycle exhibits the Carnot efficiency Hot Carnot efficiency of a power cycle: reservoir H Te mmax 1- (Temperatue in Kelvin or Boundary →Wevcle=QH-Qc Rankine scale) Cold Carnot cycle,Ericsson cycle, reservoir Stirling cycle,… four internally reversible processes: two adiabatic processes two isothermal processes 3 _TH C 上游充通大 April 9,2019 2 SHANGHAI JIAO TONG UNIVERSITY
April 9, 2019 2 A cycle exhibits the Carnot efficiency Carnot cycle, Ericsson cycle, Stirling cycle, …. Carnot efficiency of a power cycle: four internally reversible processes: two adiabatic processes + two isothermal processes (Temperatue in Kelvin or Rankine scale)
Carnot cycle and processes (1)→(2) uone]nsu Ta 3 TH=const. (2)→(3) Wnet.out Energy source Tc const. at TH 4 (4)一(3) Process 1-2:Reversible Adiabatic Compression (Tc>TH) uonelnsu Ta Process 1-2:Reversible Isothermal Expansion(TH). Process 2-3:Reversible Adiabatic Expansion(TH>Tc) (1)←一(4) Process 3-4:Reversible Isothermal Compression (Tc) Energy sink at TC i 四 上游充通大 April 9,2019 Qc SHANGHAI JIAO TONG UNIVERSITY
April 9, 2019 3 Carnot cycle and processes Process 1-2: Reversible Adiabatic Compression (TCTH ) Process 1-2: Reversible Isothermal Expansion (TH ). Process 2-3: Reversible Adiabatic Expansion (THTC ) Process 3-4: Reversible Isothermal Compression (TC )
Reversibility of the processes Process 1-2&3-4:adiabatically reversible (isentropic) Process 2-3 &4-1:Heat transfer △I vanishingly small→reversible; 个 (2)·(3) TH Energy source at TH B10 OH △T→0 Reservoir TH Tc const.gas Tconst. 上游充通大学 April 9,2019 4 SHANGHAI JLAO TONG UNIVERSITY
April 9, 2019 4 Reversibility of the processes Process 1–2 & 3-4: adiabatically reversible (isentropic) Process 2–3 & 4-1: Heat transfer ∆T vanishingly small reversible; ∆T 0 Reservoir TH & TC const. gas T const. QH QC
Work on p-v diagram of Carnot cycle Area 1-2-a-b-1:compression work Wcs/m Area 2-3-c-a-2:expansion work WeT/m Area 3-4-d-c-3:expansion work Wes/m TH Area 4-1-b-d-4:compression work WeT/m “+”0r“”? a What about the net work of Carnot cycle? How to evaluate the workand heat 上游究通大学 April 9,2019 5 SHANGHAI JIAO TONG UNIVERSITY
April 9, 2019 5 Work on p-v diagram of Carnot cycle Area 1-2-a-b-1: compression work WcS/m Area 2-3-c-a-2: expansion work WeT/m Area 3-4-d-c-3: expansion work WeS/m Area 4-1-b-d-4: compression work WcT/m a b c d What about the net work of Carnot cycle? How to evaluate the workand heat ? “+” or “-” ?