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Simulation Tools and Methods for Supercritical Carbon Dioxide Radial Inflow Turbine - Jianhui Qi

Simulation Tools and Methods for Supercritical Carbon Dioxide Radial Inflow Turbine (eBook)

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2023 | 1st ed. 2022
XXXVI, 281 Seiten
Springer Nature Singapore (Verlag)
978-981-19-2860-4 (ISBN)
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To protect the Earth, China has launched its target of peaking carbon dioxide emissions by 2030, and achieving carbon neutrality by 2060 , which greatly encourages  the use and development of renewable energy. 

Supercritical CO2 power cycle is a promising technology and the radial inflow turbine is  the most important component of it, whose design and optimisation are considered as great challenges. This book introduces simulation tools and methods for supercritical CO2 radial inflow turbine, including a high fidelity quasi-one-dimensional design procedure, a non-ideal compressible fluid dynamics Riemann solver within open-source CFD software OpenFOAM framework, and a multi-objective Nelder-Mead geometry optimiser. Enhanced one-dimensional loss models are presented for providing a new insight towards the preliminary design of the supercritical CO2 radial inflow turbine. Since the flow phenomena within the blade channels are complex, involving fluid flow, shock wave transmission and boundary layer separation, only employing the ideal gas model is inadequate to predict the performance of the turbine. Thus, a non-ideal compressible fluid dynamics Riemann solver based on OpenFOAM library is developed. This book addresses the issues related to the turbine design and blade optimization and provides leading techniques. Hence, this book is of great value for the readers working on the supercritical CO2 radial inflow turbine and understanding the knowledge  of CFD and turbomachinery.



Dr. Jianhui Qi was born in November 1989. He has obtained his Bachelor and Master of Engineering at the Shandong University, in 2012 and 2015 respectively. He has got his Ph.D. in turbomachinery at the University of Queensland on March 1st, 2019. Currently, Dr. Qi serves as an associate professor at the School of Energy and Power Engineering at the Shandong University. His research interests include the design and optimisation of supercritical CO2 radial inflow turbines, turbomachinery (axial and radial) for energy conversion and propulsion, modeling of fluid- and thermodynamic systems (mainly the sCO2 Brayton cycles), and clean combustion and pollutant controlling for biomass fuels. He has participated in the concentrated solar power generation project led by the Australian Solar Thermal Research Initiative (ASTRI). He has carried out the research on supercritical CO2 radial inflow turbine selection, design, performance simulation and geometry optimisation for 1 MW power system. At present, he leads more than 10 national and provincial research projects.
To protect the Earth, China has launched its target of peaking carbon dioxide emissions by 2030, and achieving carbon neutrality by 2060 , which greatly encourages  the use and development of renewable energy. Supercritical CO2 power cycle is a promising technology and the radial inflow turbine is  the most important component of it, whose design and optimisation are considered as great challenges. This book introduces simulation tools and methods for supercritical CO2 radial inflow turbine, including a high fidelity quasi-one-dimensional design procedure, a non-ideal compressible fluid dynamics Riemann solver within open-source CFD software OpenFOAM framework, and a multi-objective Nelder-Mead geometry optimiser. Enhanced one-dimensional loss models are presented for providing a new insight towards the preliminary design of the supercritical CO2 radial inflow turbine. Since the flow phenomena within the blade channels are complex, involving fluid flow, shock wave transmission and boundary layer separation, only employing the ideal gas model is inadequate to predict the performance of the turbine. Thus, a non-ideal compressible fluid dynamics Riemann solver based on OpenFOAM library is developed. This book addresses the issues related to the turbine design and blade optimization and provides leading techniques. Hence, this book is of great value for the readers working on the supercritical CO2 radial inflow turbine and understanding the knowledge  of CFD and turbomachinery.
Erscheint lt. Verlag 1.1.2023
Zusatzinfo XXXVI, 281 p. 135 illus., 72 illus. in color.
Sprache englisch
Themenwelt Naturwissenschaften Physik / Astronomie
Technik Elektrotechnik / Energietechnik
Technik Maschinenbau
Schlagworte computational fluid dynamics • Geometry Optimisation • Non ideal Gas Fluid Mechanics • OpenFOAM Solver • Radial Inflow Turbine • supercritical CO2
ISBN-10 981-19-2860-6 / 9811928606
ISBN-13 978-981-19-2860-4 / 9789811928604
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