Sharp error estimate of a compact L1-ADI scheme for the two-dimensional time-fractional integro-differential equation with singular kernels

2021 ◽  
Vol 159 ◽  
pp. 190-203 ◽  
Author(s):  
Zhibo Wang ◽  
Dakang Cen ◽  
Yan Mo
Keyword(s):  
Differential Equation ◽  
Error Estimate ◽  
Two Dimensional ◽  
Integro Differential Equation ◽  
Singular Kernels ◽  
Adi Scheme ◽  
Sharp Error

II. A solution of the integro-differential equation for the slope of the jet

1961 ◽  
Vol 261 (1304) ◽  
pp. 97-118 ◽  
Keyword(s):  
Differential Equation ◽  
Mathematical Model ◽  
Coordinate Transformation ◽  
Present Author ◽  
Numerical Solutions ◽  
Two Dimensional ◽  
Integro Differential Equation ◽  
Mellin Transforms ◽  
Momentum Coefficient ◽  
Slope Function

In an earlier paper with the same general title (Spence 1956, referred to as I), a mathematical model was developed to discuss the flow past a two-dimensional wing at incidence a in a steady incompressible stream, with a jet of momentum coefficient C j emerging from the trailing edge at an angular deflexion r to the chordline. In linearized approximation it was shown that the slope of the jet is given by a certain singular integro-differential equation, and numerical solutions for the equation were obtained by a pivotal points method. A coordinate transformation has now been found (Spence 1959) which makes the equation independent of the jet strength for small values of 14 C j = u, say, yielding a simpler equation solved by Lighthill (1959) using Mellin transforms (and by Stewartson (1959) and the present author by other methods). In this paper the expansion of the slope function is continued in ascending powers of u and In u multiplied by functions of x found by solving, by Lighthill’s method, a series of closely-related inhomogeneous equations. From these, expansions of the lift derivatives with respect to a and r are found as To this order the expressions agree closely with the numerical results found earlier, the discrepancy at u = 1 being less than 4 %.

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