(Thermodynamics) A steady-flow system operating on the ideal Ericsson cycle can achieve the Carnot efficiency. One of the salient features of this cycle is the isothermal expansion through a heated...


(Thermodynamics) A steady-flow system operating on the ideal Ericsson cycle can achieve the Carnot efficiency. One of the salient features of this cycle is the isothermal expansion through a heated turbine, as shown in Fig. a. Heat is added to the turbine such that the outlet temperature is equal to the inlet temperature, i.e. T₁=T₂, and the overall pressure ratio for this process is rₚ=P₁/P₂.


However, an isothermal expansion through a heated turbine is very difficult to achieve in practical engineering applications. An alternate approach is two use a multi-stage expansion process with reheating. In this approach, the gas expansion process is carried out in multiple stages with reheating in between each stage. Consider the two-stage turbine expansion with reheating shown in Fig. b. The gas enters the first stage of the turbine at state A1, isexpanded isentropically to an intermediate pressure Pₐ₂, isreheated at constant pressure to state B1, and isexpanded in the second stage isentropically to the final pressure Pᵦ₂. The overall pressure ratio remains Pₐ₁/Pᵦ₂=rₚ. In this concept, the work output is minimized if the gas is reheated to the initial temperature Tᵦ₁=Tₐ₁, and the pressure ratio is equal across each turbine stage such that Pₐ₁/Pₐ₂=Pᵦ₁/Pᵦ₂=√rₚ.


For the same inlet temperature T₁=Tₐ₁, the same mass flow rate m˙, the same overall pressure ratio rₚ, and an ideal monoatomic gas as the working fluidfor both scenarios.


Sketch the T−s diagrams for two expansion scenarios .


Qreheat<br>Reheater<br>十王<br>PB2, TB2<br>计土<br>P2, T2 = T1<br>PA2, TA2<br>PB1, TB1<br>P1, T1<br>PA1, TA1

Extracted text: Qreheat Reheater 十王 PB2, TB2 计土 P2, T2 = T1 PA2, TA2 PB1, TB1 P1, T1 PA1, TA1" WT.B WTI WTA Turbine B Turbine Turbine A T=const. Qin b) Two-stage turbine expansion with reheating a) Isothermal turbine
Jun 11, 2022
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