Modelling and Simulation of Turbulence in Energy Systems
Editat de Sofiane Benhamadouche, Elia Merzarien Limba Engleză Paperback – 31 dec 2020
With contributions by leading experts, this book will be a valuable reference for researchers and engineers performing CFD analysis to address the engineering challenges of today’s nuclear fleet and design advanced reactors and fuels for the future.
- Focuses on the all-important area of turbulence, a central concern for CFD analysts
- Coverage includes the fundamentals, the state-of-the-art and best practices
- Oriented towards practical engineering, with discussions on concerns, such as validation, model selection, and an extensive illustration of applications in nuclear engineering
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Specificații
ISBN-13: 9780081023952
ISBN-10: 0081023952
Pagini: 608
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0081023952
Pagini: 608
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Public țintă
• Researchers working at national labs, research centres and universities in nuclear/mechanical engineering departments.• Nuclear engineers performing CFD analysis for nuclear fuel vendors, nuclear reactor vendors.
• Masters and PhD students in universities aiming to gain better knowledge of the state-of-the-art in this field and their teachers.
Cuprins
Part
I
Theory1.
The
importance
of
Verification
and
Validation
in
Computational
Fluid
Dynamics
(Y.
Hassan?)
2.
Turbulence
modeling
using
Linear
Eddy
Viscosity
approaches:
From
the
standard
k-
to
the
Elliptic
blending
concept
3.
Seeking
turbulence
anisotropy:
Non-Linear
Eddy
Viscosity
Models
4.
Going
beyond
Eddy
Viscosity
Models
in
RANS:
The
relevance
of
Reynolds
Stress
Modelling
5.
Chasing
turbulent
structures:
Large
Eddy
Simulation
6.
Direct
Numerical
Simulation
in
complex
geometries:
a
step
forward
for
a
better
understanding
and
validation
of
turbulence
models
7.
Unsteady
RANS
and
hybrid
RANS/LES
turbulence
modeling:
Bridging
the
gap?
8.
Modeling
Heat
transfer:
The
elusive
turbulent
thermal
stresses
9.
Eulerian
Multiphase
turbulence
modeling
10.
Direct
Numerical
Simulation
of
multi-phase
flows
PART II Industrial applications11. An overview of turbulence modeling for light water reactor fuel assemblies 12. Turbulence modeling approaches for thermal striping in LWR and advanced reactors 13. Safety applications in light water reactors: a focus on turbulence modeling 14. Vessel-level CFD simulations in light water reactors 15. An overview of turbulence modeling for advanced reactor fuels 16. CFD for advanced nuclear reactors: Other applications 17. CFD for Severe Accident applications 18. Modeling and simulation of containment flows: focus on hydrogen risk 19. Emerging topics: Modeling turbulence in Multiscale and Multiphysics approaches
PART II Industrial applications11. An overview of turbulence modeling for light water reactor fuel assemblies 12. Turbulence modeling approaches for thermal striping in LWR and advanced reactors 13. Safety applications in light water reactors: a focus on turbulence modeling 14. Vessel-level CFD simulations in light water reactors 15. An overview of turbulence modeling for advanced reactor fuels 16. CFD for advanced nuclear reactors: Other applications 17. CFD for Severe Accident applications 18. Modeling and simulation of containment flows: focus on hydrogen risk 19. Emerging topics: Modeling turbulence in Multiscale and Multiphysics approaches