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A comprehensive model of fluid loss in hydraulic fracturing

Journal Article · · SPE Production and Facilities (Society of Petroleum Engineers); (United States)
DOI:https://doi.org/10.2118/25493-PA· OSTI ID:6702746
;  [1]
  1. Heriot-Watt Univ., Edinburgh (United Kingdom)
+ Show Author Affiliations
This paper presents a comprehensive model of the fluid-loss process that occurs in hydraulic fracturing. The model treats the three flow regions in the leakoff process--the filter cake, the invaded zone and the reservoir zone--as a composite system with a rigorous account of the interface between the last two zones. This allows automatic consideration of the variation in pressure drops across the three zones and the inclusion of many variable physical aspects in each region. For the description of the filter cake behavior, effects of the internal filter cake, core length, shear rate, and non-newtonian behavior of fluids have been taken into account. In the invaded zone, the non-Newtonian behavior of the filtrate, the permeability damage caused by the filtrate invasion, and rock and fluid compressibility have been simulated. Different boundary conditions, such as no-flow, constant-pressure, finite, and infinite boundaries, have been incorporated into the model, making it applicable for simulating both laboratory tests and the real leakoff process in fracturing treatments under a variety of conditions. The model has been validated against laboratory and published data. Excellent agreement between predicted results and test data has been achieved. The analyses show that the non-Newtonian behavior f the filtrate represented by the model has a significant effect on leakoff. Leakoff would be considerably underestimated if a Newtonian fluid filtrate, as in the classic theory, were assumed instead of the non-Newtonian system. The authors also show that the variation in pressure drops across the three zones may cause a strong nonlinear relation between leakoff and t 1/2 that cannot be explained by the classic theory because constant pressure drops are assumed.
OSTI ID:
6702746
Journal Information:
SPE Production and Facilities (Society of Petroleum Engineers); (United States), Journal Name: SPE Production and Facilities (Society of Petroleum Engineers); (United States) Vol. 9:4; ISSN 1064-668X; ISSN SPRFEZ
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
020300* -- Petroleum-- Drilling & Production
03 NATURAL GAS
030300 -- Natural Gas-- Drilling
Production
& Processing
ENHANCED RECOVERY
FORMATION DAMAGE
FRACTURING
HYDRAULIC FRACTURING
LOST CIRCULATION
MATHEMATICAL MODELS
NATURAL GAS WELLS
OIL WELLS
STIMULATION
WELL STIMULATION
WELLS