Application of Invariant Embedding to Reactor PhysicsApplication of Invariant Embedding to Reactor Physics describes the application of the method of invariant embedding to radiation shielding and to criticality calculations of atomic reactors. The authors intend to show how this method has been applied to realistic problems, together with the results of applications which will be useful to shielding design. The book is organized into two parts. Part A deals with the reflection and transmission of gamma rays by slabs. The chapters in this section cover topics such as the reflection and transmission problem of gamma rays; formulation of the probl. |
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Application of Invariant Embedding to Reactor Physics Akinao Shimizu,Katsutada Aoki Limited preview - 2013 |
Common terms and phrases
albedo angular distribution Berger Boltzmann equation boundary conditions CALCULATION OF RESPONSE coefficient component rods Compton scattering Compton wavelength computation control rods coth criticality calculations D₁ derived diffusion equation diffusion theory Dose buildup factor Dose transmission Energy albedo energy groups Energy spectra expressed finite difference method fission formulation gamma rays given group diffusion H₂O homogeneous slab incident current incident photons internal flux invariant embedding approach invariant embedding calculation isotropic iterative method L₁ law of synthesis mean flux mean free paths method of invariant modified transmission function monoenergetic Monte Carlo calculation Monte Carlo method multigroup number of photons NUMERICAL SOLUTIONS obtained ONE-DIMENSIONAL PROBLEM plane R₁ radiations reactor reflection and transmission reflection coefficient reflection function reflector response matrices response matrix method right subassembly semi-infinite medium Shimizu shown in Fig singly scattered photons sinh surface time-dependent tion TRANSMISSION OF GAMMA TWO-DIMENSIONAL PROBLEM Ση ωο