Fractional Calculus with Applications for Nuclear Reactor Dynamics 1st Edition by Santanu Saha Ray ISBN 9781498727273 978-1498727273

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Product details: 

ISBN 10: 978-1498727273

ISBN 13: 9781498727273

Author: Santanu Saha Ray 

Table of contents: 

Mathematical Methods in Nuclear Reactor Physics
Analytical Methods and Numerical Techniques for Solving Deterministic Neutron Diffusion and Kinetic Models
Numerical Methods for Solving Stochastic Point Kinetic Equations
Neutron Diffusion Equation Model in Dynamical Systems
Introduction
Outline of the Present Study
Application of the Variational Iteration Method to Obtain the Analytical Solution of the NDE
Application of the Modified Decomposition Method to Obtain the Analytical Solution of NDE
Numerical Results and Discussions for Neutron Diffusion Equations
One-Group NDE in Cylindrical and Hemispherical Reactors
Application of the ADM for One-Group Neutron Diffusion Equations
Conclusion
Fractional Order Neutron Point Kinetic Model
Introduction
Brief Description for Fractional Calculus
FNPKE and Its Derivation
Application of Explicit Finite Difference Scheme for FNPKE
Analysis for Stability of Numerical Computation
Numerical Experiments with Change of Reactivity
Conclusion
Numerical Solution for Deterministic Classical and Fractional Order Neutron Point Kinetic Model
Introduction
Application of MDTM to Classical Neutron Point Kinetic Equation
Numerical Results and Discussions for Classical Neutron Point Kinetic Model Using Different Reactivity Functions
Mathematical Model for Fractional Neutron Point Kinetic Equation
Fractional Differential Transform Method
Application of MDTM to Fractional Neutron Point Kinetic Equation
Numerical Results and Discussions for Fractional Neutron Point Kinetic Equation
Conclusion
Classical and Fractional Order Stochastic Neutron Point Kinetic Model
Introduction
Evolution of Stochastic Neutron Point Kinetic Model
Classical Order Stochastic Neutron Point Kinetic Model
Numerical Solution of the Classical Stochastic Neutron Point Kinetic Equation
Numerical Results and Discussions for the Solution of Stochastic Point Kinetic Model
Application of Explicit Finite Difference Method for Solving Fractional Order Stochastic Neutron Point Kinetic Model
Numerical Results and Discussions for the FSNPK Equations
Analysis for Stability of Numerical Computation for the FSNPK Equations
Conclusion
Solution for Nonlinear Classical and Fractional Order Neutron Point Kinetic Model with Newtonian Temperature Feedback Reactivity
Introduction
Classical Order Nonlinear Neutron Point Kinetic Model
Numerical Solution of Nonlinear Neutron Point Kinetic Equation in the Presence of Reactivity Function
Numerical Results and Discussions for the Classical Order Nonlinear Neutron Point Kinetic Equation
Mathematical Model for Nonlinear Fractional Neutron Point Kinetic Equation
Application of EFDM for Solving the Fractional Order Nonlinear Neutron Point Kinetic Model
Numerical Results and Discussions for Fractional Nonlinear Neutron Point Kinetic Equation with Temperature Feedback Reactivity Function
Computational Error Analysis for the Fractional Order Nonlinear Neutron Point Kinetic Equation
Conclusion
Numerical Simulation Using Haar Wavelet Method for Neutron Point Kinetic Equation Involving Imposed Reactivity Function
Introduction
Haar Wavelets
Function Approximation and Operational Matrix of the General Order Integration
Application of the HWOM for Solving Neutron Point Kinetic Equation
Numerical Results and Discussions
Convergence Analysis and Error Estimation
Conclusion
Numerical Solution Using Two- Dimensional Haar Wavelet Method for Stationary Neutron Transport Equation in Homogeneous Isotropic Medium
Introduction
Formulation of Neutron Transport Equation Model
Mathematical Model of the Stationary Neutron Transport Equation in a Homogeneous Isotropic Medium
Application of the Two-Dimensional Haar Wavelet Collocation Method to Solve the Stationary Neutron Transport Equation
Numerical Results and Discussions for Stationary Integer Order Neutron Transport Equation
Mathematical Model for Fractional Order Stationary Neutron Transport Equation
Application of the Two-Dimensional Haar Wavelet Collocation Method to the Fractional Order Stationary Neutron Transport Equation
Numerical Results and Discussions for Fractional Order Neutron Transport Equation
Convergence Analysis of the Two-Dimensional Haar Wavelet Method

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Santanu Saha Ray,Fractional Calculus, Applications for Nuclear,Reactor Dynamics