Title | The Role of Induced Un-propped (IU) Fractures in Unconventional Oil and Gas Wells |
Publication Type | Conference Paper |
Year of Publication | 2015 |
Authors | Manchanda, R., and M. M. Sharma |
Conference Name | SPE Annual Technical Conference and Exhibition |
Date Published | 09/2015 |
Publisher | Society of Petroleum Engineers |
Conference Location | Houston, Texas, U.S.A., 28-30 September 2015 |
ISBN Number | 978-1-61399-376-7 |
Other Numbers | SPE 174946-MS |
Keywords | Fracture modeling, Hydraulic Fracturing |
Abstract | The term induced un-propped (IU) fractures refers to fractures created around the main propped fracture which are too small to accommodate any proppant. These could include natural fractures, and micro-fractures induced along bedding planes or along other planes of weakness. Based on production data, diagnostic methods and field observations it is becoming increasingly clear that induced un-propped fractures created during the hydraulic operation play a critical role in determining the success of fracture treatments. In this paper five independent pieces of evidence are presented to prove the existence of induced un-propped fractures in most wells under downhole conditions and to demonstrate their importance in production. These include: micro-seismic data, production history matching, tracer data, pressure communication between wells and finally calculations on the fate of the injected fracturing fluids. Examples are provided to clearly demonstrate how this information indicates the presence of IU fractures. These induced un-propped fractures play an important role during fracturing and during short-term and long-term production. It is shown that shale properties and the rheology and rate of injection of fracturing fluids determine the spatial extent of IU fractures. In some shales these fractures play a dominant role while in others they may be less important. Finally the implications of the presence of IU fractures for fracture design are discussed. Recommendations for important decisions such as well spacing, fracture spacing, fluid rheology, proppant loading, proppant size and other fracture design considerations, in many instances can change substantially once the presence of IU fractures has been recognized. |
DOI | 10.2118/174946-MS |