English

Particle velocity based hydrofracturing algorithm for a penny-shaped crack

Geophysics 2018-11-15 v3 Fluid Dynamics

Abstract

A universal particle velocity based algorithm for simulating hydraulic fracture with leak-off, previously demonstrated for the PKN and KGD models, is extended to obtain solutions for a penny-shaped crack. The numerical scheme is capable of dealing with both the viscosity and toughness dominated regimes, with the fracture being driven by a power-law fluid. The computational approach utilizes two dependent variables; the fracture aperture and the reduced particle velocity. The latter allows for the application of a local condition of the Stefan type (the speed equation) to trace the fracture front. The obtained numerical solutions are carefully tested using various methods, and are shown to achieve a high level of accuracy. Simple, accurate, semi-analytical approximations of the solution are provided for the zero leak-off case. A comparison with other results available in the literature is undertaken.

Keywords

Cite

@article{arxiv.1612.03307,
  title  = {Particle velocity based hydrofracturing algorithm for a penny-shaped crack},
  author = {Daniel Peck and Michel Wrobel and Monika Perkowska and Gennady Mishuris},
  journal= {arXiv preprint arXiv:1612.03307},
  year   = {2018}
}

Comments

47 pages, 18 Figures, 12 Tables

R2 v1 2026-06-22T17:19:29.503Z