Papers Published

  1. Katz, I.M. and Shaughnessy, E.J., Computer aided analysis of 1-D compressible flow problems in a Lagrangian particle description using the α method, Comput. Fluids (UK), vol. 18 no. 1 (1990), pp. 75 - 101 [0045-7930(90)90004-H] .
    (last updated on 2007/04/06)

    The α method is a simple finite difference method for analyzing one-dimensional compressible flow problems in the Lagrangian particle description which is easy to code for a variety of applications in science and engineering. The method employs a weighted average of Euler and Lax time differencing to construct a conservative finite difference algorithm which performs well on a variety of problems with an error which is of order (Δt, Δa). The weighed time difference is shown to be equivalent to adding a diffusion term whose coefficient is proportional to the value of (1-α). Selecting values of α in the range 0⩽x⩽1 noticeably improves the results as compared with Lax differencing while retaining the ease of coding for which the Lax method is known. The α method is shown to be extremely robust by solving a number of problems involving the application of several different boundary conditions

    compressible flow;difference equations;physics computing;shock waves;