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arxiv: 2206.02521 · v1 · pith:4PQHJTZG · submitted 2022-05-11 · math.NA · cs.NA

Stochastic estimation of Green's functions with application to diffusion and advection-diffusion-reaction problems

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classification math.NA cs.NA
keywords problemsgreensolutionstransportadvection-diffusion-reactionapproximateforcingfunctions
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A stochastic method is described for estimating Green's functions (GF's), appropriate to linear advection-diffusion-reaction transport problems, evolving in arbitrary geometries. By allowing straightforward construction of approximate, though high-accuracy GF's, within any geometry, the technique solves the central challenge in obtaining Green's function solutions. In contrast to Monte Carlo solutions of individual transport problems, subject to specific sets of conditions and forcing, the proposed technique produces approximate GF's that can be used: a) to obtain (infinite) sets of solutions, subject to any combination of (random and deterministic) boundary, initial, and internal forcing, b) as high fidelity direct models in inverse problems, and c) as high quality process models in thermal and mass transport design, optimization, and process control problems.

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