economic analysis of sco2 cycles with pche...
TRANSCRIPT
![Page 1: Economic analysis of sCO2 cycles with PCHE …sco2symposium.com/papers2016/HeatExchanger/053pres.pdfEconomic analysis of sCO 2 cycles with PCHE Recuperator design optimisation 1 Dr](https://reader035.vdocuments.us/reader035/viewer/2022071000/5fbca6531d3441316a2941ff/html5/thumbnails/1.jpg)
The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.
Economic analysis of sCO2 cycles with PCHE Recuperator design optimisation
1
Dr Dereje Shiferaw, Jorge Carrero, Renaud Le Pierres
Heat Exchanger I – March 31
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.
Increase need in clean energy systems to address global warming;
More efficient power generation cycles are being considered to reduce
carbon footprint;
Any replacement of well established cycles (steam) will require strong
technical and economic arguments;
Supercritical CO2 cycles are considered to be some of the most
promising candidates to answer these requirements;
These cycles efficiency and cost are tightly linked to optimising the
design of key components, including heat exchangers
2
Introduction
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STEP
Cycles comparison
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.
sCO2 cycles recuperators must provide:
− High mechanical integrity (between 260-330 bar HP side);
− High differential pressure capabilities;
− Able to manage large number of NTUs;
− Contribute to a lower BOP cost;
Printed Circuit Heat Exchangers (PCHE) have been used for more
than 10 years with sCO2 cycles as they closely match requirements;
But PCHE cost is still being debated;
4
Heat exchangers for Supercritical CO2 Cycles
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Example of PCHE configurations
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Heat exchangers for Supercritical CO2 Cycles
Q=U*A*TD
− Q (heat duty)
− U (Overal heat transfer coefficient)
− A (heat transfer area);
− TD (mean temperature difference);
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.7
Heat exchangers for Supercritical CO2 Cycles
TD = Fhc*Fgeom*Fsc*Flong-c*LMTD
− Fhc (heat curve factor)
− Fgeom (geometry factor)
− Fsc (short circuit factor)
− Flong (longitudinal conduction factor)
− LMTD (logarithmic mean temperature difference)
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Heat exchangers for Supercritical CO2 Cycles
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.9
Heat exchangers for Supercritical CO2 Cycles
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Economic feasibility
Temperature approach analysis basis:
− 10 MWth plant size;
− High temperature recuperator;
− Constant pressure drop;
− From 2 to 18 degree Celsius approach;
− Base case is 18 degree Celsius approach;
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Economic feasibility
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Economic feasibility
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0
100
200
300
400
500
600
700
800
900
-200 40 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950
Desi
gn P
ress
ure,
bar
G
Design Temperature, °C
PCHE (316)
BAHE
PCHE (617)
Material design stress vs temperature change
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Economic feasibility
Payback Time ratio increases faster than Efficiency ratio
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.
Economy of analysis basis:
− Plant size from 5MWth to 500MWth;
− All PCHE design parameters fixed except for flow rate
15
Economy of scale
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.16
Economy of scale
Economy of scale is non-linear
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The 5th International Symposium – Supercritical CO2 Power CyclesMarc 28-31 2016 | © Heatric. Proprietary.
Small variations in heat exchanger design parameters greatly affect
their size and cost at high efficiency cycles;
Performance gain vs cost increase needs to be carefully assessed;
Return on investment ratio is slower than efficiency gain ratio;
There is an economy of scale when considering larger plants
This optimisation needs to be done at the earliest and in collaboration
between system designs and component manufacturers
17
Conclusion
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Questions
Renaud Le PierresBusiness Development Engineer
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