31401 - Fundamentals and Applications of Nuclear Engineering

Academic Year 2017/2018

  • Teaching Mode: Traditional lectures
  • Campus: Bologna
  • Corso: First cycle degree programme (L) in Energy Engineering (cod. 0924)

    Also valid for Second cycle degree programme (LM) in Energy Engineering (cod. 0935)

Learning outcomes

Fundamentals of nuclear and radiation engineering with an introduction to their applications in energy, industry, technology, biology and biomedics.

Course contents

  1. Introduction to nuclear physics and neutron induced nuclear reactions: stability and binding energy, cross sections, nuclear fission, neutron capture, elastic and anelastic scattering.
  2. Fission chain reaction: criticality, effective multiplication constant, delayed neutrons, nuclear reactors classification by spectrum and coolant.
  3. Neutron diffusion theory: derivation and applicability, boundary and interface conditions, solution for nonmultiplying media, migration length, bare homogeneous reactors, reflectors, cross sections homogeneization, control rods.
  4. Neutron spectrum: infinite medium spectrum, multigroup method for infinite medium, introduction to resonance absorption and treatment, multigroup diffusion.
  5. Reactor kinetics: delayed neutrons, point-kinetics, reactivity coefficients.
  6. Fuel burnup: fuel composition changes, Samarium and Xenon effects, breeding, fuel reprocessing, nuclear waste.
  7. Nuclear reactors: PWR, BWR, HWR, GCR, LMFBR, III and IV generation reactors, general design approach.
  8. Nuclear reactors safety.
  9. Nuclear fusion: fusion reactions, power balance in a fusion reactor.
  10. Plasma physics: basic concepts, single particle motion, coulomb interactions, two-fluids model, MHD equations, MHD equilibrium, fusion reactors technologies.

Readings/Bibliography

B. Montagnini - Lezioni di Fisica del Reattore Nucleare - Università di Pisa, 1983

Weston M. Stacey, Nuclear Reactor Physics, WILEY-VCH, 2007

Jeffrey P. Freidberg, Plasma Physics and Fusion Energy, Cambridge University Press, 2007

Link to other informations: http://plasmagroup.ing.unibo.it/

Teaching methods

Teaching in classroom, use of simple didactic MATLAB codes.

Assessment methods

Oral examination on theory, technologies and exercises.

Teaching tools

Material available on AMS Campus http://campus.unibo.it/

Office hours

See the website of Emanuele Ghedini