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Autor: =MITCHELL, S. L.
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Publicación seriada
Referencias AnalíticasReferencias Analíticas
Autor: MITCHELL, S. L. ; KUSKE, R. ; PEIRCE, A. P.
Título: AN ASYMPTOTIC FRAMEWORK FOR FINITE HYDRAULIC
Páginas/Colación: pp. 364-386
Url: Ir a http://siamdl.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=SMJMAP000067000002000364000001&idtype=cvipshttp://siamdl.aip.org/getpdf/servlet/GetPDFServlet?filetype=pdf&id=SMJMAP000067000002000364000001&idtype=cvips
SIAM Journal on Applied Mathematics Vol. 67, no. 2 Dec./Feb. 2006
Información de existenciaInformación de existencia

Palabras Claves: Palabras: ASYMPTOTIC SOLUTIONS ASYMPTOTIC SOLUTIONS, Palabras: CRACK TIP CRACK TIP, Palabras: CRITICAL SCALES CRITICAL SCALES, Palabras: HYDRAULIC FRACTURES HYDRAULIC FRACTURES, Palabras: INTEGRAL DIFFERENTIAL EQUATIONS INTEGRAL DIFFERENTIAL EQUATIONS, Palabras: LEAK-OFF LEAK-OFF

Resumen
RESUMEN

RESUMEN

 

The dynamics of hydraulic fracture, described by a system of nonlinear integrodifferential equations, is studied through the development and application of a multiparameter singular perturbation analysis. We present a new single expansion framework which describes the interaction between several physical processes, namely viscosity, toughness, and leak-off. The problem has nonlocal and nonlinear effects which give a complex solution structure involving transitions on small scales near the tip of the fracture. Detailed solutions obtained in the crack tip region vary with the dominant physical processes. The parameters quantifying these processes can be identified from critical scaling relationships, which are then used to construct a smooth solution for the fracture depending on all three processes. Our work focuses on plane strain hydraulic fractures on long time scales, and this methodology shows promise for related models with additional time scales, fluid lag, or different geometries, such as radial (penny-shaped) fractures and the classical Perkins–Kern–Nordgren (PKN) model.

 

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

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