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Analysis of pressure drop in T-junction and its effect on thermodynamic cycle efficiency
- Source :
- Applied Energy. 231:468-480
- Publication Year :
- 2018
- Publisher :
- Elsevier BV, 2018.
-
Abstract
- The application of T-junction has already been extended from the petroleum engineering to the emerging advanced thermodynamic cycles. How a T-junction, as a separator in an emerging thermodynamic cycle, affects the cycle efficiency is discussed in this paper. Firstly, based on the Eulerian method, parametric studies on the local pressure drop coefficients are conducted and two new local pressure drop (LPD) coefficients are predicted in this paper. Then, the effects of pressure drop on a composition adjustable organic Rankine cycle efficiency is analyzed. In the process, a composition adjustable organic Rankine cycle with zeotropic mixtures R245fa/R123 is chosen to calculate the effects of pressure drop on thermodynamic cycle efficiency. The quality of the outlet of the evaporator is assumed as 0.7, and the composition ratio as 0.6/0.4. The results show that the pressure variation of T-junction affects the adjustable organic Rankine cycle efficiency, and reasonable phase separation ratio can improve the thermodynamic cycle efficiency. The pressure drop could cause composition diffusion. In addition, two new local pressure drop coefficients are obtained. And the results demonstrate that K12J declines slowly with the increases of density ratio (ρ2/ρ1) and decreases with the increases of mass fraction of taken off (F). K13J shows an obvious trend with diameter ratio (d3/d1) and F. This work could push the research of T-junction as a separator in the adjustable organic Rankine cycle.
- Subjects :
- Organic Rankine cycle
Pressure drop
Materials science
020209 energy
Mechanical Engineering
Drop (liquid)
Zeotropic mixture
Thermodynamics
Separator (oil production)
02 engineering and technology
Building and Construction
Management, Monitoring, Policy and Law
01 natural sciences
010305 fluids & plasmas
General Energy
Thermodynamic cycle
0103 physical sciences
0202 electrical engineering, electronic engineering, information engineering
Mass fraction
Parametric statistics
Subjects
Details
- ISSN :
- 03062619
- Volume :
- 231
- Database :
- OpenAIRE
- Journal :
- Applied Energy
- Accession number :
- edsair.doi...........5f9c3076c69fccf64be12e1387b965f1
- Full Text :
- https://doi.org/10.1016/j.apenergy.2018.09.134