optimisation of a supercritical carbon dioxide (sco ... · concentrating.sun.ac.za 2...
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Optimisation of aSupercritical Carbon Dioxide (sCO2)
Concentrated Solar Power (CSP) System
Ruan van der WesthuizenProf Albert Groenwold, Prof Johan van der Spuy, Mr Robert Dobson
Solar Thermal Energy Research Group (STERG)
6th Annual STERG SymposiumStellenbosch, South Africa
18 July 2019
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• sCO2 Brayton cycle is an alternative to the steam Rankine cycle
• sCO2 can be operated with different heat sources at small and large power scales
• sCO2 offers better thermal efficiency, simpler cycle layouts and smaller equipment
• sCO2 industry is in its infancy
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1. Motivation and Objectives
2. System Configuration
3. Investigation into sCO2 Turbomachinery
4. General Findings
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OptimisationAnalysis vs
System Level Component Detailsvs
Design-point Off-design & Controlvs
1. Development of a versatile analytical model for the system
2. Development of a computational architecture
3. Development of an application strategy and workflow
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1. Pareto-optimisation studies to show trade-offs between design variables
2. Optimise the system’s design for the maximum thermal efficiency under given constraints– net power output– DNI level and ambient conditions
3. Optimise the system’s control strategy for the maximum energy production on a given day
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conservation of momentum
shows the relationship between the• blade velocity (B),• absolute velocity (V), and• relative velocity (R)
𝜎 = 1 −𝑉2𝑡𝑉2𝑡
′
slip factor
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ሶ𝑊fluid = 𝑀𝜔 “internal” transfer of momentum
ሶ𝑊thermodynamic = ሶ𝑚 ℎ02 − ℎ03 “external” measurements
ℎ01 = ℎ02ℎ03 = ℎ04
nozzle and diffuser sections
ሶ𝑊parasitic = ሶ𝑊thermodynamic −ሶ𝑊fluid e.g., clearance, windage
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𝜁𝑅 =ℎ0 − ℎ0𝑠12 𝑅2
2
𝜁𝑃 =𝑤parasitic
12 𝑅2
2=
ሶ𝑊parasitic
12 ሶ𝑚 𝑅2
2
𝜂𝐷 =൙
𝑃out − 𝑃in𝑃0,in − 𝑃in
1 − 𝐴𝑅 2
• Function of design• Function of operating
conditions• Determine numerical
values using– Experiments– CFD
• Universal correlations?
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data for 9 different compressor designs,each simulated at various off-design conditions
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Minimise 𝑓 𝒙 , subject to𝑔𝑖 𝒙 = 0ℎ𝑗 𝒙 ≤ 0
Objective Function
Equality Constraints
Inequality Constraints
Design Variables 𝒙 =
𝑥1𝑥2⋮𝑥𝑛
𝑖 = 1,2, … ,𝑚
𝑗 = 1,2, … , 𝑟
𝒙 ∈ ℝ𝑛 𝒙 ≤ 𝒙 ≤ ෝ𝒙
Lower Bounds
Upper Bounds
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• Importance of a heuristics-based, sequentialdesign procedure– from most influential aspects to least influential aspects
(thermodynamics → turbomachinery → heat exchangers)– facilitates a fundamental understanding– significantly speeds-up computation– takes advantage of existing knowledge
• Dominance of turbomachinery– vast majority of the system’s variables– inherent requirement of empirical data for loss modelling– complicated, non-linear performance and overwhelming
mutual dependence of variables
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Dostal, V., Driscoll, M. & Hejzlar, P. 2004.
M. Utamura. http://www.hyoka.koho.titech.ac.jp/eprd/recently/research/448_en.html
https://rapidmanufacturing.com/part-image-library/tubular-heat-sink/
https://www.indiamart.com/proddetail/power-spirit-turbo-charger-15780217788.html
http://heatexchanger.vpei.com/_images/product.png
Schott® PTR70
Patnode, A.M., 2006
ESTELA, 2016
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ACKNOWLEDGEMENTS:
CONTACT DETAILS:
visit us: concentrating.sun.ac.za
Solar Thermal Energy Research Group (STERG)Stellenbosch University South Africa
Solar Thermal Energy Research Group (STERG)
Ruan van der Westhuizen
[email protected]+27 (0)21 808 4016
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• The Simultaneous Analysis and Design approach is preferred for the turbomachinery– analytical equations of the turbomachinery models are
treated as the constraints to the optimisation problem– purely a mathematical problem– gradient-based optimisation algorithm
• The Nested Analysis and Design approach is preferred for the heat exchangers– calculation of performance separated from optimising
the design– genetic-based optimisation algorithm